attention selective divided
Foundational attention research: selective attention to relevant stimuli while filtering distractors, divided attention across simultaneous inputs, spatial attention and cueing paradigms (Posner cueing), attentional capture by salient or task-irrelevant stimuli, covert attention shifts, dichotic listening, and theories of attentional selection (filter theory, feature integration, load theory). The basic-science attention construct outside any driving task, distinct from attention_allocation under cognitive workload (attention deployed during driving) and from visual_search (active scanning for targets).
611 paper(s) · ranked by relevance to this topic
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Redes atencionales y sistema visual selectivo ↗ · 2006 · Moreno, Alejandro Castillo et al. · indexed
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Attentional capture by auto- and allo-cues · 2003 · Rauschenberger, Robert · archived
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Overriding stimulus-driven attentional capture · 1994 · Bacon, William F. et al. · archived
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Visuospatial attention: Beyond a spotlight model · 1999 · Cave, Kyle R. et al. · archived
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Immunity to attentional capture at ignored locations · 2017 · Ruthruff, Eric et al. · archived
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Terms of debate: Consensus definitions to guide the scientific discourse on visual distraction · 2024 · Liesefeld, Heinrich R. et al. · archived
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Selectivity in distraction by irrelevant featural singletons: Evidence for two forms of attentional capture. ↗ · 1998 · Folk, Charles L. et al. · indexed
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Spatial filtering restricts the attentional window during both singleton and feature-based visual search · 2020 · Berggren, Nick et al. · archived
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Displaywide visual features associated with a search display’s appearance can mediate attentional capture · 2007 · Burnham, Bryan R. · archived
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Attentional capture by color without any relevant attentional set · 2001 · Turatto, Massimo et al. · archived
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Stimulus-driven attentional capture is contingent on attentional set for displaywide visual features. ↗ · 1998 · Gibson, Bradley S. et al. · indexed
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An Expansive Survey, in Clear and Vivid Form: Proctor and Vu's (2023) <i>Attention</i> ↗ · 2023 · McCarley, Jason S. et al. · indexed
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Editorial: Cognitive hearing science: Investigating the relationship between selective attention and brain activity · 2022 · Rönnberg, Jerker et al. · archived
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Electrophysiological Evidence of the Capture of Visual Attention · 2006 · Hickey, Clayton et al. · archived
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Attentional capture by abrupt onsets: Foundations and emerging issues. ↗ · 2025 · Zhang, Han et al. · indexed
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Effects of Task Relevance and Stimulus-Driven Salience in Feature-Search Mode. ↗ · 2004 · Lamy, Dominique et al. · indexed
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Ignoring Salient Distractors Inside and Outside the Attentional Window ↗ · 2025 · Ma, Xiaojin et al. · indexed
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Signal suppression 2.0: An updated account of attentional capture and suppression · 2025 · Gaspelin, Nicholas et al. · archived
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Attentional capture by abrupt onsets and feature singletons produces inhibitory surrounds · 2000 · Mounts, Jeffrey R. W. · archived
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Attentional Capture by Abrupt Onsets: Foundations and Emerging Issues ↗ · 2024 · Zhang, Han et al. · indexed
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No identification of abrupt onsets that capture attention: evidence against a unified model of spatial attention ↗ · 2020 · Maxwell, Joshua W et al. · indexed
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Involuntary Attentional Capture is Determined by Task Set: Evidence from Event-related Brain Potentials · 2008 · Eimer, Martin et al. · archived
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The structure of attentional control: Contingent attentional capture by apparent motion, abrupt onset, and color. ↗ · 1994 · Folk, Charles L. et al. · indexed
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Involuntary covert orienting is contingent on attentional control settings. ↗ · 1992 · Folk, Charles L. et al. · indexed
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Attentional capture during attentional awakening · 2016 · Inukai, Tomoe et al. · archived
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Involuntary attentional capture by abrupt onsets · 1992 · Remington, Roger W. et al. · archived
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It’s under control: Top-down search strategies can override attentional capture · 2006 · Leber, Andrew B. et al. · archived
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Top-down search strategies cannot override attentional capture · 2004 · Theeuwes, Jan · archived
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Selective attention and performance with a multidimensional visual display. ↗ · 1986 · Lambert, Anthony J. et al. · indexed
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Stimulus-driven capture and attentional set: Selective search for color and visual abrupt onsets. ↗ · 1994 · Theeuwes, Jan · indexed
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Variations in the magnitude of attentional capture: Testing a two-process model · 2010 · Anderson, Brian A. et al. · archived
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Made you blink! Contingent attentional capture produces a spatial blink · 2002 · Folk, Charles L. et al. · archived
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Stimulus-driven attentional capture by subliminal onset cues · 2014 · Schoeberl, Tobias et al. · archived
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The size of an attentional window modulates attentional capture by color singletons · 2007 · Belopolsky, Artem V. et al. · archived
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Salience effects on attentional selection are enabled by task relevance. ↗ · 2024 · Zhang, Yue et al. · indexed
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Attentional capture and aging: Implications for visual search performance and oculomotor control ↗ · 1999 · Kramer, Arthur F. et al. · indexed
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The spatially global control of attentional target selection in visual search · 2017 · Berggren, Nick et al. · archived
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Interactions between space-based and feature-based attention. ↗ · 2014 · Leonard, Carly J. et al. · indexed
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The roles of feature-specific task set and bottom-up salience in attentional capture: An ERP study. · 2009 · Eimer, Martin et al. · archived
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Irrelevant sights and sounds require spatial suppression: <scp>ERP</scp> evidence ↗ · 2022 · Lunn, Jessica et al. · indexed
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Top-down search strategies determine attentional capture in visual search: Behavioral and electrophysiological evidence · 2010 · Eimer, Martin et al. · archived
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Nonspatial interdimensional attentional capture · 2010 · Inukai, Tomoe et al. · archived
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Space-based and feature-based attentional selection in perception and working memory · 2019 · McCants, Cody W. · archived
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Global Facilitation of Attended Features Is Obligatory and Restricts Divided Attention · 2013 · Søren K. Andersen et al. · archived
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Hidden from view: Statistical learning exposes latent attentional capture · 2019 · Hilchey, Matthew D. et al. · archived
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Moving attention: Evidence for time-invariant shifts of visual selective attention · 1984 · Remington, Roger et al. · archived
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Attentional Selection of Feature Conjunctions Is Accomplished by Parallel and Independent Selection of Single Features ↗ · 2015 · Søren K. Andersen et al. · indexed
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Can Irrelevant Onsets Capture Attention? Searching for a Unified Model of Attention Capture ↗ · 2014 · Gaspelin, Nicholas · indexed
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An EEG study of the combined effects of top‐down and bottom‐up attentional selection under varying task difficulty ↗ · 2022 · Rashal, Einat et al. · indexed
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Involuntary transfer of a top-down attentional set into the focus of attention: Evidence from a contingent attentional capture paradigm · 2010 · Moore, Katherine Sledge et al. · archived
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Feature-driven attentional capture is modulated by the distribution of spatial attention ↗ · 2015 · Leonard, Carly et al. · indexed
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Automatic, stimulus-driven attentional capture by objecthood · 2007 · Kimchi, Ruth et al. · archived
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Attentional capture in singleton-detection and feature-search modes. ↗ · 2003 · Lamy, Dominique et al. · indexed
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Suppression of overt attentional capture by salient-but-irrelevant color singletons · 2016 · Gaspelin, Nicholas et al. · archived
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On the distinction between visual salience and stimulus-driven attentional capture. ↗ · 1999 · Yantis, Steven et al. · indexed
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Progress toward resolving the attentional capture debate ↗ · 2020 · Luck, Steven J. et al. · indexed
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The role of working memory in attentional capture · 2005 · Lavie, Nilli et al. · archived
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Abrupt visual onsets and selective attention: Voluntary versus automatic allocation. ↗ · 1990 · Yantis, Steven et al. · indexed
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Attentional capture by a color singleton is stronger at spatially relevant than irrelevant locations: Evidence from an ERP study ↗ · 2020 · Su, Yuling et al. · indexed
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Auditory Attentional Capture: Effects of Singleton Distractor Sounds. ↗ · 2004 · Dalton, Polly et al. · indexed
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Object features, object locations, and object files: Which does selective attention activate and when? ↗ · 2000 · Lamy, Dominique et al. · indexed
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The problem of latent attentional capture: Easy visual search conceals capture by task-irrelevant abrupt onsets. ↗ · 2016 · Gaspelin, Nicholas et al. · indexed
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Contingent attentional capture occurs by activated target congruence · 2008 · Ariga, Atsunori et al. · archived
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On measuring selective attention to an expected sensory modality · 1997 · Spence, Charles et al. · archived
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A review of attentional capture: On its automaticity and sensitivity to endogenous control ↗ · 2002 · Ruz, Marı́a et al. · indexed
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Stimulus-driven attentional capture and attentional control settings. ↗ · 1993 · Yantis, Steven · indexed
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Direct Evidence for Active Suppression of Salient-but-Irrelevant Sensory Inputs · 2015 · Gaspelin, Nicholas et al. · archived
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Contingent attentional capture by top-down control settings: Converging evidence from event-related potentials. · 2008 · Lien, Mei-Ching et al. · archived
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Selective attention to the color and direction of moving stimuli: Electrophysiological correlates of hierarchical feature selection · 1996 · Lourdes Anllo‐Vento et al. · archived
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Early sensory gain control is dominated by obligatory and global feature-based attention in top-down shifts of combined spatial and feature-based attention ↗ · 2023 · Gundlach, Christopher et al. · indexed
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Multiple attentional control settings influence late attentional selection but do not provide an early attentional filter ↗ · 2010 · Adamo, Maha et al. · indexed
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Tracking exogenous attentional capture in an urgent covert perceptual choice task ↗ · 2023 · Oor, Emily E et al. · indexed
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Attentional control through colour-location associations induces contingent capture ↗ · 2024 · Joubran, Samantha et al. · indexed
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Unique Temporal Change Is the Key to Attentional Capture ↗ · 2005 · von Mühlenen, Adrian et al. · indexed
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Irrelevant Singletons in Visual Search Do Not Capture Attention but Can Produce Nonspatial Filtering Costs ↗ · 2011 · Wykowska, Agnieszka et al. · indexed
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Attention: the mechanisms of consciousness. · 1994 · Posner, Michael · archived
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Can new objects override attentional control settings? · 1999 · Folk, Charles L. et al. · archived
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Evidence for split attentional foci. · 2000 · Awh, Edward et al. · archived
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The N2pc component and its links to attention shifts and spatially selective visual processing · 2007 · Kiss, Mónika et al. · archived
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Overriding auditory attentional capture · 2007 · Dalton, Polly et al. · archived
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Modality-specificity of Selective Attention Networks · 2015 · Stewart, Hannah J. et al. · archived
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Goal-driven attentional capture by invisible colors: Evidence from event-related potentials · 2009 · Ansorge, Ulrich et al. · archived
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Attentional Limitations in Doing Two Tasks at the Same Time · 1992 · Pashler, Harold · archived
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The Attention Operating Characteristic: Examples from Visual Search ↗ · 1978 · Sperling, George et al. · indexed
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Shifting visual attention and selecting motor responses: Distinct attentional mechanisms. · 1991 · Pashler, Harold · archived
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The processing mechanism of category-specific attentional control settings in attentional capture ↗ · 2022 · Wu, Xia et al. · indexed
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No commonality between attentional capture and attentional blink ↗ · 2011 · Kawahara, Jun I. et al. · indexed
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Reflexive and voluntary orienting of visual attention: Time course of activation and resistance to interruption. ↗ · 1989 · Müller, Hermann J. et al. · indexed
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Feature-based and spatial attentional selection in visual working memory · 2016 · Heuer, Anna et al. · archived
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The interacting effect of load and space on visual selective attention ↗ · 2009 · Caparos, Serge et al. · indexed
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Cognitive control in the cocktail party: Preparing selective attention to dichotically presented voices supports distractor suppression · 2019 · Nolden, Sophie et al. · archived
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The neural basis of attentional control in visual search · 2014 · Eimer, Martin · archived
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The guiding strength of sensory templates during preparatory stage of sustained feature-based attention ↗ · 2026 · Zhang, Xiaoli et al. · indexed
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Inhibition as a potential resolution to the attentional capture debate ↗ · 2018 · Gaspelin, Nicholas et al. · indexed
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Category‐based attentional capture can be influenced by color‐ and shape‐dimensions independently in the conjunction search task ↗ · 2020 · Wu, Xia et al. · indexed
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Context-dependent modulation of spatial attention: prioritizing behaviourally relevant stimuli · 2025 · Britt, Noah et al. · archived
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Visual search and the inhibitions of return · 2023 · Klein, Raymond M. et al. · archived
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Intentional attention switching in dichotic listening: Exploring the efficiency of nonspatial and spatial selection ↗ · 2014 · Lawo, Vera et al. · indexed
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A static color discontinuity can capture spatial attention when the target is an abrupt-onset singleton. ↗ · 2008 · Burnham, Bryan R. et al. · indexed
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Spontaneous allocation of visual attention: Dominant role of uniqueness · 2001 · Pashler, Harold et al. · archived
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On the electrophysiological evidence for the capture of visual attention. ↗ · 2012 · McDonald, John J. et al. · indexed
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Progress and remaining issues: A response to the commentaries on Luck et al. (2021) ↗ · 2021 · Gaspelin, Nicholas et al. · indexed
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Electrophysiological Evidence for the Suppression of Highly Salient Distractors ↗ · 2022 · Stilwell, Brad T. et al. · indexed
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Attentional capture by visual singletons is mediated by top‐down task set: New evidence from the N2pc component · 2008 · Kiss, Mónika et al. · archived
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Tracking the Location of Visuospatial Attention in a Contingent Capture Paradigm ↗ · 2008 · Leblanc, Émilie et al. · indexed
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Perceptual load and the capture of spatial attention by color singletons ↗ · 2010 · Gaspelin, Nicholas · indexed
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Editorial: Turning the Mind's Eye Inward: The Interplay Between Selective Attention and Working Memory · 2015 · Abrahamse, Elger et al. · archived
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Attentional control during visual search: The effect of irrelevant singletons. ↗ · 1998 · Theeuwes, Jan et al. · indexed
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Visual evoked potential correlates of early neural filtering during selective attention · 1981 · Eason, Robert G. · archived
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Surprise! An Unexpected Color Singleton Does Not Capture Attention in Visual Search ↗ · 1998 · Gibson, Bradley S. et al. · indexed
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Selective attention and the organization of visual information. ↗ · 1984 · Duncan, John S. · indexed
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Feature-based attention involuntarily and simultaneously improves visual performance across locations ↗ · 2011 · White, Alex L. et al. · indexed
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Attentional set and explicit expectations of perceptual load determine flanker interference. · 2024 · Eayrs, Joshua O. et al. · archived
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Attentional load modifies early activity in human primary visual cortex · 2008 · Rauss, Karsten et al. · archived
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The Influence of Salience on Attentional Capture by Set-Consistent and Set-Inconsistent Stimuli ↗ · 2015 · Folk, Charles et al. · indexed
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Sensory gain control (amplification) as a mechanism of selective attention: electrophysiological and neuroimaging evidence · 1998 · Hillyard, Steven A. et al. · archived
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Distinguishing different strategies of across-dimension attentional selection. ↗ · 2011 · Huang, Liqiang et al. · indexed
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Selection of moving and static objects for the control of spatially directed action. ↗ · 1990 · Tipper, Steven P. et al. · indexed
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EEG evidence for spatial selectivity in feature-based preparation for visual search ↗ · 2025 · Dodwell, Gordon et al. · indexed
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Splitting the attentional spotlight? Evidence from attentional capture by successive events ↗ · 2019 · Gabbay, Coral et al. · indexed
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Voluntary and automatic attentional control of visual working memory · 2002 · Schmidt, Brandon K. et al. · archived
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Selective and divided attention during visual discriminations of shape, color, and speed: functional anatomy by positron emission tomography ↗ · 1991 · Corbetta, Maurizio et al. · indexed
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Multivariate analysis of EEG activity indexes contingent attentional capture · 2021 · Munneke, Jaap et al. · archived
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Selective attention and eccentricity: A comprehensive review ↗ · 2025 · Olivers, Christian N.L. · indexed
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Attentional capture is modulated by stimulus saliency in visual search as evidenced by event-related potentials and alpha oscillations · 2022 · Forschack, Norman et al. · archived
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Mechanisms Underlying Suppression of Attentional Capture by Salient Stimuli ↗ · 2017 · Gaspelin, Nicholas · indexed
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Neural Mechanisms of Human Perceptual Choice Under Focused and Divided Attention ↗ · 2015 · Wyart, Valentin et al. · indexed
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Target-uncertainty effects in attentional capture: Color-singleton set or multiple attentional control settings? · 2010 · Folk, Charles L. et al. · archived
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The illusion of control: Sequential dependencies underlie contingent attentional capture · 2018 · Huffman, Greg et al. · archived
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Mind wandering and selective attention to the external world. ↗ · 2015 · Handy, Todd C. et al. · indexed
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A new technique for estimating the probability of attentional capture · 2023 · Rigsby, Taylor J. et al. · archived
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All set! Evidence of simultaneous attentional control settings for multiple target colors. ↗ · 2011 · Irons, Jessica et al. · indexed
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Spatial selectivity in visual search · 1981 · Hoffman, James E. et al. · archived
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Salience determines attentional orienting in visual selection. ↗ · 2020 · Wang, Benchi et al. · indexed
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Filtering performance in visual working memory is improved by reducing early spatial attention to the distractors ↗ · 2019 · Allon, Ayala S. et al. · indexed
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Attentional misguidance in visual search · 1994 · Todd, S. et al. · archived
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When visual marking meets the attentional blink: More evidence for top-down, limited-capacity inhibition. ↗ · 2002 · Olivers, Christian N. L. et al. · indexed
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Investigating attentional control sets: Evidence for the compilation of multi-feature control sets · 2022 · Merz, Simon et al. · archived
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Measuring learning and attention to irrelevant distractors in contextual cueing ↗ · 2024 · Vadillo, Miguel A. et al. · indexed
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Guiding spatial attention by multimodal reward cues · 2022 · Hoofs, Vincent et al. · archived
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Rapid disengagement hypothesis and signal suppression hypothesis of visual attentional capture · 2020 · Zhang, Fan et al. · archived
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Bottom-up and Top-down Control in Visual Search · 2004 · van Zoest, Wieske et al. · archived
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Contingent attentional capture by conceptually relevant images. ↗ · 2012 · Wyble, Brad et al. · indexed
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A dual-stage two-phase model of selective attention. · 2010 · Hübner, Ronald et al. · archived
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Attentional control settings prevent abrupt onsets from capturing visual spatial attention ↗ · 2009 · Al-Aidroos, Naseem et al. · indexed
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Temporal expectations modulate attentional capture · 2005 · Lamy, Dominique · archived
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Beyond guidance: It’s time to focus on the consequences of attentional capture ↗ · 2021 · Zivony, Alon · indexed
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Feature specificity in attentional capture by size and color ↗ · 2013 · Harris, Anthony M. et al. · indexed
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An integrative, experience-based theory of attentional control ↗ · 2011 · Wilder, Matthew et al. · indexed
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Category-based guidance of spatial attention during visual search for feature conjunctions. ↗ · 2016 · Nako, Rebecca et al. · indexed
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Intact Goal-Driven Attentional Capture in Autistic Adults · 2021 · Husain, Layal et al. · archived
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Visual Selective Attention in Adults with ADHD: Electrophysiological Evidence of Facilitation and Suppression · 2014 · Couperus, Jane W. et al. · archived
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Visual motion and attentional capture · 1994 · Hillstrom, Anne P. et al. · archived
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Crossmodal attentional control sets between vision and audition · 2017 · Mast, Frank et al. · archived
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Working memory load and attentional capture by unpredicted color changes ↗ · 2012 · von Muhlenen, A. et al. · indexed
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Contingent Capture at a very short SOA: Evidence against Rapid Disengagement ↗ · 2007 · Chen, Peggy et al. · indexed
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Stimulus-driven attentional capture: Evidence from equiluminant visual objects. ↗ · 1994 · Yantis, Steven et al. · indexed
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Does low perceptual load enable capture by colour singletons? ↗ · 2012 · Gaspelin, Nicholas et al. · indexed
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Spatial Attention in Visual Search for Features and Feature Conjunctions ↗ · 1995 · Kim, Min-Shik et al. · indexed
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Visual evoked potentials and selective attention to points in space · 1977 · Van Voorhis, Steven et al. · archived
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Electrophysiological evidence for target facilitation without distractor suppression in two-stimulus search displays ↗ · 2021 · Forschack, Norman et al. · indexed
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Attentional capture decreases when distractors remain visible during rapid serial visual presentations · 2010 · Inukai, Tomoe et al. · archived
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Eye-movement patterns in selective listening tasks of focused attention · 1973 · Gopher, Daniel · archived
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Neural Mechanisms of Object Prioritization in Vision · 2025 · Grignolio, Damiano et al. · archived
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Attentional capture by globally defined objects · 2001 · Rauschenberger, Robert et al. · archived
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The temporal dynamics of selective attention are reflected by distractor intrusions · 2023 · Zivony, Alon et al. · archived
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Assessing the attentional demand: improvements to the experimental protocol and possible learning effects · 2025 · Di Pompeo, Ilaria et al. · archived
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Bayesian accounts of covert selective attention: A tutorial review · 2015 · Vincent, Benjamin T. · archived
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Selective Attention to Specific Features within Objects: Behavioral and Electrophysiological Evidence ↗ · 2006 · Nobre, Anna C. et al. · indexed
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The gradual emergence of spatially selective target processing in visual search: From feature-specific to object-based attentional control. ↗ · 2014 · Eimer, Martin et al. · indexed
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Context and competition in the capture of visual attention · 2011 · Hickey, Clayton et al. · archived
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What drives memory-driven attentional capture? The effects of memory type, display type, and search type. · 2009 · Olivers, Christian N. L. · archived
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Covert attention is attracted to prior target locations: Evidence from the probe paradigm · 2022 · Talcott, Travis N. et al. · archived
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Tracking target and distractor processing in fixed-feature visual search: Evidence from human electrophysiology. ↗ · 2013 · Jannati, Ali et al. · indexed
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Do different systems mediate attention to space vs. objects?: ↗ · 2010 · Hoffman, James E. et al. · indexed
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Behavioral performance follows the time course of neural facilitation and suppression during cued shifts of feature-selective attention · 2010 · Søren K. Andersen et al. · archived
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Distractor Suppression When Attention Fails: Behavioral Evidence for a Flexible Selective Attention Mechanism · 2015 · Elliott, James C. et al. · archived
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Willed Attentional Selection of Visual Features: An EEG Study · 2024 · Wang, Jingyi et al. · archived
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Themes and variations: A response to commentaries on Luck, et al. (2021) ↗ · 2021 · Remington, Roger W. et al. · indexed
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Attention: Reaction Time and Accuracy Reveal Different Mechanisms. ↗ · 2005 · Prinzmetal, William et al. · indexed
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Using response time distributions to examine top-down influences on attentional capture · 2013 · Burnham, Bryan R. · archived
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Global enhancement of target color—not proactive suppression—explains attentional deployment during visual search. · 2023 · Oxner, Matt et al. · archived
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Object-based attention in complex, naturalistic auditory streams · 2019 · Marinato, Giorgio et al. · archived
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An electrophysiological study of attention capture by salience: Does rarity enable capture? ↗ · 2014 · Noesen, Birken et al. · indexed
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Feature-based memory-driven attentional capture: Visual working memory content affects visual attention. · 2006 · Olivers, Christian N. L. et al. · archived
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Cross-modal interactions at the audiovisual cocktail-party revealed by behavior, ERPs, and neural oscillations ↗ · 2023 · Klatt, Laura‐Isabelle et al. · indexed
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Coarse matching was sufficient to capture attention by working memory representations unless matching features with the target · 2025 · Hu, Cenlou et al. · archived
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Dissociable Pupil and Oculomotor Markers of Attention Allocation and Distractor Suppression during Listening ↗ · 2025 · Liu, Xena et al. · indexed
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Conflicting Sensory Information Sharpens the Neural Representations of Early Selective Visuospatial Attention ↗ · 2024 · Sookprao, Panchalee et al. · indexed
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Activation profiles across neural feature dimension maps guide attention during visual search ↗ · 2024 · Thayer, Daniel D. et al. · indexed
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Influence of attentional capture on oculomotor control. · 1999 · Theeuwes, Jan et al. · archived
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Objects and attributes in divided attention: Surface and boundary systems · 1996 · Duncan, John S. et al. · archived
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Differential Modulation of Attention by Aversive Associative and Statistical Learning in Distinct Visual Search Modes ↗ · 2025 · Chen, Yue et al. · indexed
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Dissociations of Personally Significant and Task-Relevant Distractors Inside and Outside the Focus of Attention: A Combined Behavioral and Psychophysiological Study. ↗ · 2003 · Gronau, Nurit et al. · indexed
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A lateralized alpha-band marker of the interference of exogenous attention over endogenous attention ↗ · 2023 · Landry, Mathieu et al. · indexed
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Cognitive load modulates attentional capture by color singletons during effortful visual search ↗ · 2010 · Burnham, Bryan R. · indexed
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Pay attention! A review of visual attentional expertise in sport ↗ · 2009 · Memmert, Daniel · indexed
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Phasic alerting facilitates endogenous orienting of spatial attention: Evidence from event-related lateralizations of the EEG · 2020 · Asanowicz, Dariusz et al. · archived
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Distinguishing among theories of selective attention using the flanker paradigm ↗ · 2017 · Palmer, John et al. · indexed
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EPS Mid-Career Award 2014 · 2015 · Eimer, Martin · archived
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Temporally selective attention modulates early perceptual processing: Event-related potential evidence · 2008 · Sanders, Lisa D. et al. · archived
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Predictive distractor processing relies on integrated proactive and reactive attentional mechanisms ↗ · 2025 · Ferrante, Oscar et al. · indexed
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Salient‐but‐irrelevant stimuli cause attentional capture in difficult, but attentional suppression in easy visual search · 2017 · Barras, Caroline et al. · archived
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Electrical Signs of Selective Attention in the Human Brain ↗ · 1973 · Hillyard, Steven A. et al. · indexed
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Attentional capture increases when attention is diffused · 2010 · INUKAI, Tomoe et al. · archived
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Predictive Distractor Processing Relies on Integrated Proactive and Reactive Attentional Mechanisms ↗ · 2026 · Ferrante, Oscar et al. · indexed
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The attentional capture debate: the long-lasting consequences of a misnomer ↗ · 2021 · Lamy, Dominique · indexed
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Rapid Changes of Attentional Priorities in Visual Search: Tracking Covert Switches of Preparatory Attentional Templates in Real Time ↗ · 2026 · Dodwell, Gordon et al. · indexed
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Decoding Covert Visual Attention in Space and Time from Neural Signals · 2025 · Hamed, Suliann Ben · archived
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Switching in the cocktail party: Exploring intentional control of auditory selective attention. ↗ · 2011 · Koch, Iring et al. · indexed
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Contextual cueing reduces interference from task-irrelevant onset distractors ↗ · 2001 · Peterson, Matthew S. et al. · indexed
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Temporally parallel facilitation of same-colored objects beyond spatial selection ↗ · 2025 · Wehle, Sarah et al. · indexed
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ERP correlates of contingent attentional capture and suppression ↗ · 2015 · Barras, Caroline et al. · indexed
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On the Efficiency of Visual Selective Attention: Efficient Visual Search Leads to Inefficient Distractor Rejection ↗ · 1997 · Lavie, Nilli et al. · indexed
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Spatial Attention Can Be Allocated Rapidly and in Parallel to New Visual Objects ↗ · 2014 · Eimer, Martin et al. · indexed
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Attenuated Change Blindness for Exogenously Attended Items in a Flicker Paradigm ↗ · 2000 · Scholl, Brian J. · indexed
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Do ERP components triggered during attentional orienting represent supramodal attentional control? · 2007 · Seiss, Ellen et al. · archived
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Divided attention between simultaneous auditory and visual signals · 1998 · Bonnel, Anne-Marie et al. · archived
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The Multifaceted Nature of Bilingualism and Attention · 2022 · Chung-Fat-Yim, Ashley et al. · archived
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Rapid parallel attentional target selection in single-color and multiple-color visual search. ↗ · 2015 · Grubert, Anna et al. · indexed
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Competition shapes spatial coding strategy for selective attention inside visual working memory: insights from gaze and neural measurements ↗ · 2024 · Liu, Baiwei et al. · indexed
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Attention Modulates Stimulus Representations in Neural Feature Dimension Maps ↗ · 2025 · Thayer, Daniel D. et al. · indexed
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Theory-based Models of Attention in Visual Workspaces ↗ · 2016 · Steelman, Kelly S. et al. · indexed
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Attentional effects on preattentive vision: Spatial precues affect the detection of simple features. ↗ · 1999 · Theeuwes, Jan et al. · indexed
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Color segregation and selective attention in a nonsearch task · 1983 · Harms, Lisbeth et al. · archived
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Separating the effects of visual working memory load and attentional zoom on selective attention. ↗ · 2020 · Lee, Hyuksu et al. · indexed
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Attention and Performance · 2001 · Pashler, Harold et al. · archived
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The Distractor Positivity Component and the Inhibition of Distracting Stimuli ↗ · 2023 · Gaspelin, Nicholas et al. · indexed
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Selective attention and visual search: Revision of an allocation model and application to age differences. ↗ · 1992 · Madden, David J. · indexed
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Templates for rejection: Configuring attention to ignore task-irrelevant features. ↗ · 2012 · Arita, Jason T. et al. · indexed
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The negative priming paradigm: An update and implications for selective attention · 2015 · Frings, Christian et al. · archived
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Visual attention to surfaces in three-dimensional space. · 1995 · He, Zhuochao et al. · archived
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On the Temporal Relation of Top–Down and Bottom–Up Mechanisms during Guidance of Attention ↗ · 2010 · Wykowska, Agnieszka et al. · indexed
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Cue-driven attentional guidance nearly eliminates salience effects in working memory. ↗ · 2026 · Gaspelin, Nicholas et al. · indexed
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A New Technique for Measuring the Salience of Distractors ↗ · 2023 · Stilwell, Brad T. et al. · indexed
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What to Where: The Right Attention Set for the Wrong Location ↗ · 2019 · Stothart, Cary et al. · indexed
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There is more to trial history than priming in attentional capture experiments · 2015 · Goller, Florian et al. · archived
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Clarifying the role of target similarity, task relevance and feature-based suppression during sustained inattentional blindness ↗ · 2016 · Drew, Trafton et al. · indexed
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Unique temporal change does not account for attentional capture by sudden onsets ↗ · 2008 · Owens, Caleb et al. · indexed
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Feature-based statistical regularities of distractors modulate attentional capture. ↗ · 2019 · Stilwell, Brad T. et al. · indexed
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Attentional capture by deviant sounds: A noncontingent form of auditory distraction? · 2017 · Vachon, François et al. · archived
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Selective and Divided Attention: Extracting Information from Simultaneous Sound Sources. ↗ · 2004 · Barbara Shinn‐Cunningham et al. · indexed
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Attend to it now or lose it forever: Selective attention, metacontrast masking, and object substitution · 2002 · Tata, Matthew S. · archived
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Reduced attentional capture in action video game players · 2010 · Chisholm, Joseph D. et al. · archived
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Even Highly Salient Distractors Are Proactively Suppressed ↗ · 2021 · Stilwell, Brad T. et al. · indexed
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On the role of selective attention in visual perception · 1998 · Luck, Steven J. et al. · archived
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Attentional capture triggers an attentional blink · 2006 · Maki, William S. et al. · archived
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The guidance of spatial attention during visual search for color combinations and color configurations. · 2016 · Berggren, Nick et al. · archived
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Disentangling the effects of spatial cues on selection and formation of auditory objects ↗ · 2008 · Ihlefeld, Antje et al. · indexed
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Half a century of research on the Stroop effect: An integrative review. · 1991 · MacLeod, Colin M. · archived
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Target-nontarget similarity decreases search efficiency and increases stimulus-driven control in visual search · 2017 · Barras, Caroline et al. · archived
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Evidence for negative feature guidance in visual search is explained by spatial recoding. ↗ · 2015 · Beck, Valerie M. et al. · indexed
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Oculomotor inhibition of salient distractors: Voluntary inhibition cannot override selection history ↗ · 2019 · Gaspelin, Nicholas et al. · indexed
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Rapid changes of attentional priorities in visual search: Tracking covert switches of preparatory attentional templates in real time ↗ · 2025 · Dodwell, Gordon et al. · indexed
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Proactive suppression can be applied to multiple salient distractors in visual search. · 2023 · Drisdelle, Brandi Lee et al. · archived
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Unexpected abrupt onsets can override a top-down set for color. ↗ · 2015 · Folk, Charles L. et al. · indexed
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Selective Attention to Task-Irrelevant Emotional Distractors Is Unaffected by the Perceptual Load Associated with a Foreground Task · 2012 · Attar, Catherine Hindi et al. · archived
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Slow phase-locked modulations support selective attention to sound ↗ · 2022 · Kachlicka, Magdalena et al. · indexed
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Not looking for any trouble? Purely affective attentional settings do not induce goal-driven attentional capture · 2019 · Brown, Chris Robert Harrison et al. · archived
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Selective attention and internal constraints: There is more to the flanker effect than biased contingencies. ↗ · 2004 · Mordkoff, J. Toby · indexed
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Time of day as an instrument for the analysis of attention ↗ · 1989 · Broadbent, Donald Eric · indexed
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Spatial filtering during visual search: Evidence from human electrophysiology. ↗ · 1994 · Luck, Steven J. et al. · indexed
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Statistical regularities cause attentional suppression with target-matching distractors · 2020 · Kerzel, Dirk et al. · archived
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The precise role of surface structure in spatial attention ↗ · 2017 · Jardine, Nicole et al. · indexed
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Suppression of Salient Objects Prevents Distraction in Visual Search ↗ · 2014 · Gaspar, John M. et al. · indexed
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Distinct patterns of spatial attentional modulation of steady state visual evoked magnetic fields (SSVEFs) in subdivisions of the human early visual cortex ↗ · 2023 · Moratti, Stephan et al. · indexed
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Early and late selection modulate competition for representation: Evidence from the N2pc in a multiple frame procedure ↗ · 2016 · Aubin, Sébrina et al. · indexed
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Age-related changes in selective attention and perceptual load during visual search. ↗ · 2003 · Madden, David J. et al. · indexed
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Serial deployment of attention during visual search. ↗ · 2003 · Woodman, Geoffrey F. et al. · indexed
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Driven by information: A tectonic theory of Stroop effects. ↗ · 2003 · Melara, Robert D. et al. · indexed
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Habituation (of attentional capture) is not what you think it is. · 2023 · Turatto, Massimo · archived
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Electrophysiological Indices of Distractor Processing in Visual Search Are Shaped by Target Expectations ↗ · 2023 · van Moorselaar, Dirk et al. · indexed
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Set-specific capture can be reduced by pre-emptively occupying a limited-capacity focus of attention ↗ · 2011 · Moore, Katherine Sledge et al. · indexed
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Electrophysiological indices of distractor processing in visual search are shaped by target expectations · 2022 · van Moorselaar, Dirk et al. · archived
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The effects of secondary task performance on the temporal and spatial cueing of visual attention · 2010 · Cooper, JM · archived
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Audiovisual links in endogenous covert spatial attention. ↗ · 1996 · Spence, Charles et al. · indexed
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The role of relational information in contingent capture. ↗ · 2010 · Becker, Stefanie I. et al. · indexed
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Selective attention to stimulus location modulates the steady-state visual evoked potential. · 1996 · Morgan, Stephen T. et al. · archived
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Humans reconfigure target and distractor processing to address distinct task demands ↗ · 2021 · Ritz, Harrison et al. · indexed
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Relative saliency affects attentional capture and suppression of color and face singleton distractors: evidence from event-related potential studies ↗ · 2024 · Zhang, Yue et al. · indexed
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The role of visual attention in saccadic eye movements · 1995 · Hoffman, James E. et al. · archived
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Attentional allocation to task-irrelevant fearful faces is not automatic: experimental evidence for the conditional hypothesis of emotional selection ↗ · 2019 · Victeur, Quentin et al. · indexed
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Voluntary Control of Task Selection Does Not Eliminate the Impact of Selection History on Attention ↗ · 2020 · Henare, Dion et al. · indexed
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Learning influences the attentional capture and suppression of abrupt onset and color singletons: Evidence from event- related potential studies ↗ · 2025 · Chen, Hu et al. · indexed
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Neural dynamics of shifting visual attention between objects and locations in early visual cortex ↗ · 2025 · Wehle, Sarah et al. · indexed
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Contingent capture effects in temporal order judgments. · 2015 · Born, Sabine et al. · archived
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Object-based target templates guide attention during visual search. · 2018 · Berggren, Nick et al. · archived
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Global and local precedence: Selective attention in form and motion perception. ↗ · 1983 · Pomerantz, James R. · indexed
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The guidance of attention by templates for rejection during visual search · 2020 · Berggren, Nick et al. · archived
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Region-based shielding of visual search from salient distractors: Target detection is impaired with same- but not different-dimension distractors · 2018 · Sauter, Marian et al. · archived
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Crossmodal links between audition and touch in covert endogenous spatial attention · 2003 · Lloyd, Donna M. et al. · archived
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Slippage theory and the flanker paradigm: An early-selection account of selective attention failures. ↗ · 2014 · Gaspelin, Nicholas et al. · indexed
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A dual mechanism underlying retroactive shifts of auditory spatial attention: dissociating target- and distractor-related modulations of alpha lateralization · 2020 · Klatt, Laura-Isabelle et al. · archived
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A dual mechanism underlying retroactive shifts of auditory spatial attention: dissociating target- and distractor-related modulations of alpha lateralization ↗ · 2019 · Klatt, Laura-Isabelle et al. · indexed
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Display probability modulates attentional capture by onset distractors ↗ · 2010 · Sayim, Bilge · indexed
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Is goal-directed attentional guidance just intertrial priming? A review ↗ · 2013 · Lamy, Dominique et al. · indexed
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Ten simple rules to study distractor suppression · 2021 · Wöstmann, Malte et al. · archived
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Categorization specificity and sematic content impact the deployment of spatial attention ↗ · 2017 · Noesen, Birken et al. · indexed
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Increasing Signal, Reducing Noise: Contrasting Neural Mechanisms of Attention in Visual Search ↗ · 2026 · Bruckmaier, Merit et al. · indexed
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工作记忆表征对视觉注意的影响:基于非目标模板的视角 · 2018 · Li, Yangzhuo et al. · archived
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Attention does not always help: The role of expectancy, divided, and spatial attention on illusory conjunctions ↗ · 2022 · Cobos, María I et al. · indexed
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Neural correlates of distraction and conflict resolution for nonverbal auditory events · 2017 · Stewart, Hannah J. et al. · archived
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The role of visual attention in multiple object tracking: Evidence from ERPs · 2010 · Doran, Matthew M. et al. · archived
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Static items are automatically prioritized in a dynamic environment ↗ · 2008 · Pinto, Yaïr et al. · indexed
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Learned and cued distractor rejection for multiple features in visual search · 2019 · Stilwell, Brad T. et al. · archived
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Testing a goal-driven account of involuntary attentional capture by threat. · 2019 · Brown, Chris Robert Harrison et al. · archived
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Understanding of attentional suppression is incomplete without consideration of motivation and context ↗ · 2021 · Leber, Andrew B. · indexed
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Neural mechanisms of learned suppression uncovered by probing the hidden attentional priority map · 2025 · Huang, Changrun et al. · archived
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Supramodal Executive Control of Attention · 2015 · eSPAGNA, ALFREDO et al. · archived
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The roles of relevance and expectation for the control of attention in visual search. · 2019 · Berggren, Nick et al. · archived
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Goal-directed and stimulus-driven selection of internal representations · 2020 · van Ede, Freek et al. · archived
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Early Visual Cortex Dynamics during Top–Down Modulated Shifts of Feature-Selective Attention ↗ · 2015 · Müller, Matthias M. et al. · indexed
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Contextual Cueing: Implicit Learning and Memory of Visual Context Guides Spatial Attention ↗ · 1998 · Chun, Marvin M. et al. · indexed
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Semantically congruent bimodal presentation modulates cognitive control over attentional guidance by working memory · 2024 · Cai, Biye et al. · archived
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The role of target–distractor relationships in guiding attention and the eyes in visual search. ↗ · 2010 · Becker, Stefanie I. · indexed
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From Capture to Control: Initial Capture Increases Learned Suppression ↗ · 2026 · Zhang, Yue et al. · indexed
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Identifying a “default” visual search mode with operant conditioning ↗ · 2010 · Kawahara, Jun-ichiro · indexed
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Slow phase-locked endogenous modulations support selective attention to sound ↗ · 2021 · Kachlicka, Magdalena et al. · indexed
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Modeling the Control of Attention in Visual Workspaces ↗ · 2011 · Steelman, Kelly S. et al. · indexed
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Attentional capture during visual search is attenuated by target predictability: Evidence from the <scp>N</scp>2pc, <scp>P</scp>d, and topographic segmentation ↗ · 2013 · Burra, Nicolas et al. · indexed
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ATLAS: Mapping ATtention’s Location And Size to probe five modes of serial and parallel search · 2024 · Davis, Gregory · archived
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Effects of Location, Frequency Region, and Time Course of Selective Attention on Auditory Scene Analysis. ↗ · 2004 · Cusack, Rhodri et al. · indexed
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Attention rhythmically samples multi-feature objects in working memory · 2022 · Chota, Samson et al. · archived
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Disentangling the Attention Network Test: Behavioral, Event Related Potentials and neural source analyses. ↗ · 2014 · eGalvao-Carmona, Alejandro et al. · indexed
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Sex Differences in Temporal but Not Spatial Attentional Capture ↗ · 2018 · Inukai, Tomoe et al. · indexed
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Mixed signals: The effect of conflicting reward- and goal-driven biases on selective attention · 2017 · Preciado, Daniel et al. · archived
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Cortical Mechanisms for Shifting and Holding Visuospatial Attention ↗ · 2007 · Kelley, Todd A. et al. · indexed
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“Top-down” Does Not Mean “Voluntary” · 2018 · Gaspelin, Nicholas et al. · archived
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What can a half-million saccades tell us about distractor suppression? ↗ · 2025 · Drennan, Kaitlyn N et al. · indexed
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The fidelity of attentional set develops during a temporal visual search ↗ · 2015 · Inukai, Tomoe et al. · indexed
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More than a filter: Feature-based attention regulates the distribution of visual working memory resources ↗ · 2017 · Dube, Blaire et al. · indexed
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Qualitative differences in the guidance of attention during single-color and multiple-color visual search: Behavioral and electrophysiological evidence. ↗ · 2013 · Grubert, Anna et al. · indexed
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Dimension-selective attention and dimensional salience modulate cortical tracking of acoustic dimensions ↗ · 2021 · Symons, Ashley E. et al. · indexed
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P<sub>D</sub> components and distractor inhibition in visual search: New evidence for the signal suppression hypothesis · 2021 · Drisdelle, Brandi Lee et al. · archived
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Preemptive control of attentional capture by colour: Evidence from trial-by-trial analyses and orderings of onsets of capture effects in reaction time distributions ↗ · 2006 · Ansorge, Ulrich et al. · indexed
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Some characteristics of selective attention in visual perception determined by vocal reaction time · 1972 · Eriksen, Charles W. et al. · archived
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Introspective awareness of oculomotor attentional capture. ↗ · 2021 · Adams, Owen J. et al. · indexed
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Effects of task‐irrelevant or filler items on brain mechanisms of visual spatial attention ↗ · 2020 · Drisdelle, Brandi Lee et al. · indexed
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Alpha-band fluctuations represent behaviorally relevant excitability changes as a consequence of top–down guided spatial attention in a probabilistic spatial cueing design ↗ · 2024 · Gundlach, Christopher et al. · indexed
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Distractors in multiple object tracking can be suppressed early or late in processing: Evidence from ERPs ↗ · 2010 · Doran, M. et al. · indexed
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Neural dynamics of attentional resource allocation in early visual cortex: emotional scenes produce competitive interactions ↗ · 2024 · de Echegaray, Javier et al. · indexed
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Unintended Allocation of Spatial Attention to Goal-Relevant but Not to Goal-Related Events · 2011 · Vogt, Julia et al. · archived
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The influence of display-to-display feature changes on net cueing effects: Evidence for a contribution of object-file updating ↗ · 2020 · Schoeberl, Tobias et al. · indexed
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Perceptual grouping allows for attention to cover noncontiguous locations and suppress capture from nearby locations. ↗ · 2012 · Kerzel, Dirk et al. · indexed
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From Capture to Control: Initial Capture Leads to Learned Suppression ↗ · 2025 · Zhang, Yue et al. · indexed
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fMRI Studies of Stroop Tasks Reveal Unique Roles of Anterior and Posterior Brain Systems in Attentional Selection · 2000 · Banich, Marie T. et al. · archived
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A Computational Model of Auditory Selective Attention ↗ · 2004 · Wrigley, Stuart N. et al. · indexed
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Distracted by pleasure: Effects of positive versus negative valence on emotional capture under load. · 2015 · Gupta, Rashmi et al. · archived
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Focused and divided attention in stereoscopic depth ↗ · 1990 · Wickens, Christopher D. et al. · indexed
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Electrophysiological Evidence for Attentional Suppression of Highly Salient Distractors ↗ · 2022 · Stilwell, Brad T. et al. · indexed
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Exploring Attention in Depth: Event-Related and Steady-State Visual Evoked Potentials During Attentional Shifts Between Depth Planes in a Novel Stimulation Setup ↗ · 2025 · Jänig, Jonas et al. · indexed
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Effects of Distractor Load and Temporal Target-Distractor Separation on Numerical Comparison Performance: A Stimulus-Competition Approach ↗ · 2002 · Paas, Fred et al. · indexed
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Neural Mechanisms for the Benefits of Stimulus-Driven Attention ↗ · 2016 · Wills, Katelyn M. et al. · indexed
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Steady-state visual evoked potential and its applications in studying visual selective attention · 2020 · Chen, Xiaoyu et al. · archived
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Task relevance modulates processing of distracting emotional stimuli ↗ · 2011 · Lichtenstein-Vidne, Limor et al. · indexed
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Do the contents of visual working memory automatically influence attentional selection during visual search? ↗ · 2007 · Woodman, Geoffrey F. et al. · indexed
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Early Development of Visual Attention: Change, Stability, and Longitudinal Associations · 2019 · Hendry, Alexandra et al. · archived
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Bottom-up priming of top-down attentional control settings ↗ · 2008 · Folk, Charles L. et al. · indexed
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Interactions between working memory and attention depend on remembered feature dimension ↗ · 2023 · Thayer, Daniel et al. · indexed
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A Selective Attention Test as a Predictor of Success in Flight Training ↗ · 1982 · Gopher, Daniel · indexed
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Can spatial attention be "shrink-wrapped" to attended objects? ↗ · 2010 · Hoffman, James E. et al. · indexed
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N2ac: An ERP component associated with the focusing of attention within an auditory scene ↗ · 2011 · Gamble, Marissa L. et al. · indexed
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The influence of perceptual load on age differences in selective attention. ↗ · 1998 · Maylor, Elizabeth A. et al. · indexed
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Incorporation of a Test of Selective Attention in a Pilot Selection Battery ↗ · 1981 · Gopher, Daniel · indexed
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The development of attentional networks: Cross-sectional findings from a life span sample. ↗ · 2010 · Waszak, Florian et al. · indexed
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Active inference, selective attention, and the cocktail party problem · 2021 · Holmes, Emma et al. · archived
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Investigating the role of the Frontal Eye Field (FEF) and of the Intraparietal Sulcus (IPS) in attentional capture: A TMS study ↗ · 2018 · Lega, Carlotta et al. · indexed
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Express Attentional Re-Engagement but Delayed Entry into Consciousness Following Invalid Spatial Cues in Visual Search · 2008 · Brisson, Benoit et al. · archived
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A Boolean map theory of visual attention. · 2007 · Huang, Liqiang et al. · archived
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The Role of Spatial Selective Attention in Working Memory for Locations: Evidence from Event-Related Potentials ↗ · 2000 · Awh, Edward et al. · indexed
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Dynamic modulation of spatial selection: Online and anticipatory adjustments in the flanker task · 2025 · Villalonga, Mercedes B. et al. · archived
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Learning to Attend and to Ignore Is a Matter of Gains and Losses ↗ · 2009 · Della Libera, Chiara et al. · indexed
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Probing the Neural Systems Underlying Flexible Dimensional Attention · 2021 · Buss, Aaron T. et al. · archived
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Spatial Attentional Selection Modulates Early Visual Stimulus Processing Independently of Visual Alpha Modulations ↗ · 2019 · Gundlach, Carsten et al. · indexed
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Variance of alpha oscillation power corresponds to behavioral performance in spatial auditory attention ↗ · 2022 · Richardson, Benjamin N. et al. · indexed
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Anticipatory Biasing of Visuospatial Attention Indexed by Retinotopically Specific α-Bank Electroencephalography Increases over Occipital Cortex ↗ · 2000 · Worden, Michael S. et al. · indexed
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Absence of Evidence or Evidence of Absence? Commentary: Captured by the pain: Pain steady-state evoked potentials are not modulated by selective spatial attention · 2016 · Colon, Elisabeth et al. · archived
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Predictability of salient distractor increases top-down control in healthy younger and older adults ↗ · 2019 · Haupt, Marleen et al. · indexed
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Attentional capture during attentional awakening · 2011 · INUKAI, Tomoe et al. · archived
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Nogo Stimuli Do Not Receive More Attentional Suppression or Response Inhibition than Neutral Stimuli: Evidence from the N2pc, PD, and N2 Components in a Spatial Cueing Paradigm · 2016 · Barras, Caroline et al. · archived
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Anticipatory Attentional Suppression of Visual Features Indexed by Oscillatory Alpha-Band Power Increases:A High-Density Electrical Mapping Study ↗ · 2010 · Snyder, A. C. et al. · indexed
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Interactions between working memory and attention depend on remembered feature dimension ↗ · 2025 · Thayer, Daniel et al. · indexed
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Working Memory Load Enhances the Attentional Capture of Low Reward History ↗ · 2019 · Wu, Yujie et al. · indexed
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The Effect and Time Course of Prediction and Perceptual Load on Category-Based Attentional Orienting Across Color and Shape Dimensions ↗ · 2025 · Jiang, Yunpeng et al. · indexed
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Evidence Inhibition Responds Reactively to the Salience of Distracting Information during Focused Attention · 2013 · Wyatt, Natalie et al. · archived
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Modulating attentional capture via Transcranial Magnetic Stimulation (TMS) of right TPJ ↗ · 2019 · Lega, Carlotta et al. · indexed
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Guidance of spatial attention by incidental learning and endogenous cuing. ↗ · 2012 · Jiang, Yuhong et al. · indexed
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The role of spatial attention in crowding and feature binding ↗ · 2022 · Kewan-Khalayly, Bahiyya et al. · indexed
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Orienting Attention to Locations in Internal Representations ↗ · 2003 · Griffin, Ivan C. et al. · indexed
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Divided attention: Storing and classifying briefly presented objects · 1994 · Pashler, Harold · archived
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Spatially Selective Alpha Oscillations Reveal Moment-by-Moment Trade-offs between Working Memory and Attention ↗ · 2017 · van Moorselaar, Dirk et al. · indexed
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Where to start? Bottom-up attention improves working memory by determining encoding order. · 2016 · Ravizza, Susan M. et al. · archived
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Trial History Effects in the Ventral Attentional Network ↗ · 2014 · Scalf, Paige E. et al. · indexed
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Same-location costs in peripheral cueing: The role of cue awareness and feature changes. ↗ · 2017 · Schoeberl, Tobias et al. · indexed
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The architecture of working memory: Features from multiple remembered objects produce parallel, coactive guidance of attention in visual search. ↗ · 2020 · Bahle, Brett et al. · indexed
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Visual Selective Attention and the Effects of Monetary Rewards ↗ · 2006 · Della Libera, Chiara et al. · indexed
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Attentional capture by task-irrelevant fearful faces is revealed by the N2pc component ↗ · 2006 · Eimer, Martin et al. · indexed
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Combined Electrophysiological and Behavioral Evidence for the Suppression of Salient Distractors ↗ · 2018 · Gaspelin, Nicholas et al. · indexed
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Semantic priming and retrieval from lexical memory: Roles of inhibitionless spreading activation and limited-capacity attention. ↗ · 1977 · Neely, James H. · indexed
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Bottom-up and top-down attention are independent · 2013 · Pinto, Y. et al. · archived
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Working memory and the guidance of visual attention: Consonance-driven orienting · 2007 · Huang, Liqiang et al. · archived
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Attentional capture by evaluative stimuli: Gain- and loss-connoting colors boost the additional-singleton effect · 2013 · Wentura, Dirk et al. · archived
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Attraction of Position Preference by Spatial Attention throughout Human Visual Cortex · 2014 · Klein, Barrie P. et al. · archived
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Configural representations in spatial working memory: modulation by perceptual segregation and voluntary attention · 2011 · Gmeindl, Leon et al. · archived
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Controlling attention to nociceptive stimuli with working memory. · 2011 · Legrain, Valéry et al. · archived
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Object-based attention prioritizes working memory contents at a theta rhythm · 2018 · Peters, Benjamin et al. · archived
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Selective attention affects conceptual object priming and recognition: a study with young and older adults · 2015 · Ballesteros, Soledad et al. · archived
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Strong primary cue weighting is linked to robust dimension-selective attention ↗ · 2025 · Symons, Ashley E · indexed
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Visual attention to emotional pictures: Striking parallels with neutral stimuli challenge emotion-specific accounts of influences on attentional biases. ↗ · 2025 · Folyi, Tímea et al. · indexed
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Selective attention and recognition: effects of congruency on episodic learning · 2014 · Rosner, Tamara M et al. · archived
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Effects of acute aerobic exercise on exogenous spatial attention · 2011 · Sanabria, Daniel et al. · archived
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Statistical Learning of Distractor Suppression Down-regulates Pre-Stimulus Neural Excitability in Early Visual Cortex ↗ · 2022 · Ferrante, Oscar et al. · indexed
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The Impact of Prefrontal Cortex for Selective Attention in a Visual Working Memory Task ↗ · 2008 · Schreppel, T. J. et al. · indexed
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Activity in the Fronto-Parietal and Visual Cortex Is Modulated by Feature-Based Attentional Weighting ↗ · 2022 · Lanssens, Armien et al. · indexed
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Filtering ability in visual working memory cannot be improved by temporal and spatial task cues ↗ · 2015 · Allon, Ayala et al. · indexed
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Strong primary cue weighting is linked to robust dimension-selective attention ↗ · 2026 · Symons, Ashley et al. · indexed
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Neural mechanisms for the attention-mediated propagation of conceptual information in the human brain · 2025 · Acunzo, David et al. · archived
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Spatial attention can bias search in visual short-term memory · 2008 · Nobre, Anna C. · archived
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Occipital Alpha and Gamma Oscillations Support Complementary Mechanisms for Processing Stimulus Value Associations · 2017 · Marshall, Tom R. et al. · archived
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Cueing distractors is effective when the incentive to suppress is high · 2025 · Heuer, Anna et al. · archived
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Attentional shifts bias microsaccade direction but do not cause new microsaccades · 2024 · Liu, Baiwei et al. · archived
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Delineating the Neural Signatures of Tracking Spatial Position and Working Memory during Attentive Tracking ↗ · 2011 · Drew, Trafton et al. · indexed
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Feature-based attention separately influences visual working memory resolution and encoding probability ↗ · 2015 · Dube, Blaire et al. · indexed
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Blinded by Fear? Prior Exposure to Fearful Faces Enhances Attentional Processing of Task-Irrelevant Stimuli ↗ · 2013 · Berggren, Nick et al. · indexed
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The modulation of working memory load and perceptual load on attentional guidance from representations of working memory ↗ · 2017 · ZHANG, Bao et al. · indexed
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Attentional bias in anxiety: Selective search or defective filtering? ↗ · 1990 · Eysenck, Michael W · indexed
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The role of the parietal cortex in visual feature binding · 2002 · Shafritz, Keith M. et al. · archived
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Working memory, attention and their relationship: A theoretical overview · 2021 · Angelopoulou, Effrosyni et al. · archived
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The role of transient attention in crowding and feature binding ↗ · 2021 · Kewan, Bahiya et al. · indexed
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Causal links between parietal alpha activity and spatial auditory attention ↗ · 2019 · Deng, Yuqi et al. · indexed
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Spatiotemporal Dynamics of High-Gamma Activities during a 3-Stimulus Visual Oddball Task · 2013 · Akimoto, Yoritaka et al. · archived
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Identity and Spatial Cues Can Improve Filtering Ability in Visual Working Memory ↗ · 2016 · Allon, Ayala et al. · indexed
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The Role of Alpha-Band Brain Oscillations as a Sensory Suppression Mechanism during Selective Attention · 2011 · Foxe, John J. et al. · archived
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Volitional control of parieto-occipital alpha lateralization via neurofeedback does not influence auditory spatial attention ↗ · 2026 · Stockar, Felix et al. · indexed
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The Development of Selective Attention Orienting is an Agent of Change in Learning and Memory Efficacy ↗ · 2015 · Markant, Julie et al. · indexed
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Involvement of the dorsal and ventral attention networks in oddball stimulus processing: A meta‐analysis · 2013 · Kim, Hongkeun · archived
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Convergence between Lesion-Symptom Mapping and Functional Magnetic Resonance Imaging of Spatially Selective Attention in the Intact Brain ↗ · 2008 · Molenberghs, Pascal et al. · indexed
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Category learning drives cortical attentional gain to diagnostic dimensions ↗ · 2024 · Luthra, Sahil et al. · indexed
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Directed and Motivated Attention during Processing of Natural Scenes ↗ · 2008 · Ferrari, Vera et al. · indexed
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The impact of polycystic ovary syndrome on attention: an empirical investigation · 2025 · Redkar, Maitreyi et al. · archived
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Research on Attention Networks as a Model for the Integration of Psychological Science · 2006 · Posner, Michael · archived
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Unattended Distractor-Induced Priming in a Visual Selective Attention Task ↗ · 2004 · Heil, Martin et al. · indexed
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Stimulating the parietal cortex by transcranial direct current stimulation (tDCS): no effects on attention and memory ↗ · 2020 · Dubravac, Mirela et al. · indexed
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Dissociated α-Band Modulations in the Dorsal and Ventral Visual Pathways in Visuospatial Attention and Perception ↗ · 2014 · Capilla, Almudena et al. · indexed
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The role of consciousness in attentional control differences in trait anxiety ↗ · 2012 · Berggren, Nick et al. · indexed
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Neural Mechanisms of Strategic Adaptation in Attentional Flexibility ↗ · 2020 · Sali, Anthony W. et al. · indexed
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Interference with Rehearsal in Spatial Working Memory in the Absence of Eye Movements ↗ · 1996 · Smyth, Mary M. · indexed
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Alpha-Band Brain Oscillations Shape the Processing of Perceptible as well as Imperceptible Somatosensory Stimuli during Selective Attention ↗ · 2017 · Forschack, Norman et al. · indexed
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Attention and probability effects in the human occipital cortex ↗ · 1997 · Gratton, Gabriele · indexed
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Suppressive Control of Incentive Salience in Real-World Human Vision ↗ · 2023 · Hickey, Clayton et al. · indexed
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Selective memories: infants' encoding is enhanced in selection via suppression ↗ · 2013 · Markant, Julie et al. · indexed
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Attentional capture by emotional faces is contingent on attentional control settings ↗ · 2012 · Barratt, Daniel et al. · indexed
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Relationships Between Cortically Mediated Attentional Dysfunction and Social Anxiety, Self-Focused Attention, and External Attention Bias ↗ · 2019 · Tomita, Nozomi et al. · indexed
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Gestalt Grouping Cues Can Improve Filtering Performance in Visual Working Memory ↗ · 2017 · Allon, Ayala et al. · indexed
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Object-based processes in the planning of goal-directed hand movements ↗ · 2004 · Bekkering, Harold et al. · indexed
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Circular organization of the instantaneous phase in ERPs and the ongoing EEG due to selective attention ↗ · 2017 · Corona-Strauss, Farah I. et al. · indexed
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The Electrophysiological Markers of Statistically Learned Attentional Enhancement: Evidence for a Saliency-based Mechanism ↗ · 2023 · Duncan, Dock H. et al. · indexed
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Selecting for Memory? The Influence of Selective Attention on the Mnemonic Binding of Contextual Information ↗ · 2009 · Uncapher, Melina R. et al. · indexed
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Attentional status of faces for people with autism spectrum disorder ↗ · 2012 · Remington, Anna et al. · indexed
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Dorsal and Ventral Parietal Contributions to Spatial Orienting in the Human Brain ↗ · 2011 · Chica, Ana B. et al. · indexed
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Exploring the role of attention during memory retrieval: Effects of semantic encoding and divided attention · 2006 · Lozito, Jeffrey P. et al. · archived
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Interference between smooth pursuit and color working memory · 2017 · Yue, Shulin et al. · archived
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Cortico-Cortical Interactions in Spatial Attention: A Combined ERP/TMS Study · 2006 · Fuggetta, Giorgio et al. · archived
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Foxes, hedgehogs, and attentional capture · 2021 · Hickey, Clayton et al. · archived
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One-year old infants control bottom-up saliencies to purposely sustain attention ↗ · 2021 · Méndez, Andrés Hugo et al. · indexed
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The role of brain-localized gamma and alpha oscillations in inattentional deafness: implications for understanding human attention · 2023 · Callan, Daniel E. et al. · archived
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The influence of cerebellum on visual selective attention in patients with multiple lacunar cerebral infarction and its neuromodulatory mechanisms · 2024 · Yuan, Xiaodong et al. · archived
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Biased attentional engagement with, and disengagement from, negative information: Independent cognitive pathways to anxiety vulnerability? ↗ · 2013 · Rudaizky, Daniel et al. · indexed
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The effect of menstrual cycle on sex differences in attentional capture · 2013 · INUKAI, Tomoe et al. · archived
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Predictive cues and spatial attentional bias for alcohol: Manipulations of cue-outcome mapping · 2020 · Gladwin, Thomas E. et al. · archived
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Author response: Value-based attentional capture affects multi-alternative decision making ↗ · 2018 · Gluth, Sebastian et al. · indexed
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Attentional propagation of conceptual information in the human brain ↗ · 2024 · Acunzo, David et al. · indexed
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Dorsal Posterior Parietal rTMS Affects Voluntary Orienting of Visuospatial Attention ↗ · 2005 · Thut, Gregor et al. · indexed
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The Neural Underpinnings of How Reward Associations Can Both Guide and Misguide Attention · 2011 · Krebs, Ruth M. et al. · archived
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Brain networks of visuospatial attention and their disruption in visual neglect ↗ · 2012 · Bartolomeo, Paolo et al. · indexed
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Attentional biases to signals of negative information: Reliable measurement across three anxiety domains · 2024 · Basanovic, Julian · archived
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Attention shifting and subliminal cueing under high attentional load: an EEG study using emotional faces ↗ · 2019 · Tipura, Eda et al. · indexed
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Lifespan development of attentiveness in domestic dogs: drawing parallels with humans · 2014 · Wallis, Lisa et al. · archived
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Children's and Adults' Knowledge about What Variables Affect Selective Attention ↗ · 1982 · Miller, Patricia H. et al. · indexed
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Challenges to Selective Exposure: Selective Seeking and Avoidance in a Multitasking Media Environment ↗ · 2014 · Jang, S. Mo · indexed
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Faces capture the visuospatial attention of chimpanzees (Pan troglodytes): evidence from a cueing experiment · 2009 · Tomonaga, Masaki et al. · archived
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Attentional control moderates the relationship between pain catastrophizing and selective attention to pain faces on the antisaccade task · 2020 · Ranjbar, Seyran et al. · archived
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Attention and the Processing of Emotional Words and Names · 2004 · Harris, Christine R. et al. · archived
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Attention Drives Synchronization of Alpha and Beta Rhythms between Right Inferior Frontal and Primary Sensory Neocortex · 2015 · Sacchet, Matthew D. et al. · archived
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Attentional modulation of neural phase is enhanced by short-term training and linked to musical experience ↗ · 2019 · Laffere, Aeron et al. · indexed
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The Functional Neuroanatomy of Spatial Attention in Autism Spectrum Disorder ↗ · 2005 · Haist, Frank et al. · indexed
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Selective Attention to Threat in Childhood Anxiety: Evidence from Visual Probe Paradigms ↗ · 2010 · Garner, Matthew · indexed
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The Cerebellum Modulates Attention Network Functioning: Evidence from a Cerebellar Transcranial Direct Current Stimulation and Attention Network Test Study · 2019 · Mannarelli, Daniela et al. · archived
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Contralateral delay activity tracks storage load in visual working memory: Evidence from the multiple object tracking task ↗ · 2022 · Wang, Yanxiang et al. · indexed
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Anatomical substrates of the alerting, orienting and executive control components of attention: focus on the posterior parietal lobe. · 2012 · Yin, Xuntao et al. · archived
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Bilingual advantage in attentional control: Evidence from the forced-attention dichotic listening paradigm ↗ · 2010 · Soveri, Anna et al. · indexed
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Reward Changes Salience in Human Vision via the Anterior Cingulate · 2010 · Hickey, Clayton et al. · archived
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Value-based attentional capture affects multi-alternative decision making ↗ · 2018 · Gluth, Sebastian et al. · indexed
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Working memory load moderates late attentional bias in social anxiety ↗ · 2012 · Judah, Matt R. et al. · indexed
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Spatial Attention Disorders in Developmental Dyslexia: Towards the Prevention of Reading Acquisition Deficits ↗ · 2012 · Facoetti, Andrea · indexed
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A diffusion modeling approach to understanding contextual cueing effects in children with <scp>ADHD</scp> ↗ · 2014 · Weigard, Alexander et al. · indexed
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The Relationship between Bilingualism and Selective Attention in Young Adults: Evidence from an Ambiguous Figures Task ↗ · 2017 · Chung-Fat-Yim, Ashley et al. · indexed
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Development of selective attention in preschool-age children from lower socioeconomic status backgrounds ↗ · 2017 · Wray, Amanda Hampton et al. · indexed
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Food pleasantness affects visual selective attention ↗ · 2010 · di Pellegrino, Giuseppe et al. · indexed
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Commentary: Alpha Synchrony and the Neurofeedback Control of Spatial Attention · 2020 · Gundlach, Christopher et al. · archived
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Neural mechanisms of attentional control in mindfulness meditation ↗ · 2013 · Malinowski, Peter · indexed
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Meditation increases the depth of information processing and improves the allocation of attention in space ↗ · 2012 · Leeuwen, Sara evan et al. · indexed
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Selective Impairment of Attentional Networks of Alerting in Wilson's Disease · 2014 · Han, Yongsheng et al. · archived
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Electrophysiology of Mind: Event-Related Brain Potentials and Cognition ↗ · 1995 · Rugg, Michael D. et al. · indexed
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Neural mechanisms of incentive salience in naturalistic human vision ↗ · 2015 · Hickey, Clayton et al. · indexed
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Selective processing of smoking-related cues in smokers: manipulation of deprivation level and comparison of three measures of processing bias ↗ · 2002 · Mogg, Karin et al. · indexed
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Are there multiple ways to direct attention in working memory? ↗ · 2018 · Atkinson, Amy Louise et al. · indexed
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Investigating Autistic Hyper-Focus and Monotropism: Limited Convergence of Event-Related Potentials, Laboratory Tasks, and Questionnaire Responses ↗ · 2025 · Dwyer, Patrick et al. · indexed
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The Joint Effects of Spatial Cueing and Transcranial Direct Current Stimulation on Visual Acuity · 2018 · Bonder, Taly et al. · archived
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Visual Instructor Presence in Online Lectures: Effects of Individual Differences in Attention Control ↗ · 2024 · Vazquez, Eve et al. · indexed
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Attention impairment in patients with cervical dystonia: An attention network test study · 2022 · Xia, Kun et al. · archived
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Worry or craving? A selective review of evidence for food-related attention biases in obese individuals, eating-disorder patients, restrained eaters and healthy samples · 2014 · Werthmann, Jessica et al. · archived
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Attention Capture of Non-target Emotional Faces: An Evidence From Reward Learning ↗ · 2020 · Zhou, Xing et al. · indexed
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The impact of ADHD symptoms, class size, and classroom area on university students’ selective attention · 2025 · Khozaei, Fatemeh et al. · archived
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Retro-cueing in multi-attribute choices: The influence of memory availability on strategy selection and attribute weights ↗ · 2019 · Krefeld-Schwalb, Antonia et al. · indexed
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The Influence of Situational Cues on Children’s Creativity in an Alternative Uses Task and the Moderating Effect of Selective Attention ↗ · 2020 · van Dijk, M. et al. · indexed
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Selective attention to emotional faces following recovery from depression. ↗ · 2007 · Joormann, Jutta et al. · indexed
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Event‐Related Potentials, Spatial Orienting, and Reading Disabilities ↗ · 1989 · Harter, M. Russell et al. · indexed
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5-HTTLPR polymorphism is linked to neural mechanisms of selective attention in preschoolers from lower socioeconomic status backgrounds ↗ · 2016 · Isbell, Elif et al. · indexed
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Selective enhancement of attentional networks in college table tennis athletes: a preliminary investigation ↗ · 2016 · Wang, Biye et al. · indexed
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The P300: Where in the Brain Is It Produced and What Does It Tell Us? ↗ · 2005 · Linden, David E.J. · indexed