| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2009PLoSO...4.8042E |
| P356 | DOI | 10.1371/JOURNAL.PONE.0008042 |
| P932 | PMC publication ID | 2777337 |
| P698 | PubMed publication ID | 19956663 |
| P5875 | ResearchGate publication ID | 40443745 |
| P50 | author | Jay Pratt | Q42541466 |
| Stephen M. Emrich | Q50957561 | ||
| Naseem Al-Aidroos | Q56986717 | ||
| P2093 | author name string | Susanne Ferber | |
| P2860 | cites work | The magical number 4 in short-term memory: a reconsideration of mental storage capacity | Q28213950 |
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| Flexible, capacity-limited activity of posterior parietal cortex in perceptual as well as visual short-term memory tasks | Q33307474 | ||
| Express attentional re-engagement but delayed entry into consciousness following invalid spatial cues in visual search | Q33393635 | ||
| Moving towards solutions to some enduring controversies in visual search | Q34176947 | ||
| The capacity of visual working memory for features and conjunctions | Q34447907 | ||
| Human variation in overriding attentional capture | Q34991332 | ||
| Dissociating the neural mechanisms of memory-based guidance of visual selection | Q36089111 | ||
| Do the contents of visual working memory automatically influence attentional selection during visual search? | Q36103104 | ||
| The role of working memory representations in the control of attention | Q36168590 | ||
| Neural measures of individual differences in selecting and tracking multiple moving objects | Q36943543 | ||
| Reward priority of visual target singletons modulates event-related potential signatures of attentional selection. | Q37103828 | ||
| The role of visual working memory (VWM) in the control of gaze during visual search | Q37419559 | ||
| Feature-based memory-driven attentional capture: visual working memory content affects visual attention. | Q38403483 | ||
| Establishing object correspondence across eye movements: Flexible use of spatiotemporal and surface feature information | Q43170260 | ||
| Visual search is guided by prospective and retrospective memory | Q44929530 | ||
| Spatial filtering during visual search: evidence from human electrophysiology | Q46225654 | ||
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| Memory for where, but not what, is used during visual search | Q48449824 | ||
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| The role of spatial working memory in visual search efficiency | Q48534400 | ||
| Using the jackknife-based scoring method for measuring LRP onset effects in factorial designs | Q48682833 | ||
| Working memory can guide pop-out search | Q48713212 | ||
| Refixation frequency and memory mechanisms in visual search | Q50106869 | ||
| Fundamental properties of the N2pc as an index of spatial attention: effects of masking. | Q50706633 | ||
| Why jackknifing yields good latency estimates. | Q51852229 | ||
| Distractor devaluation requires visual working memory. | Q51942510 | ||
| Out with the old: inhibition of old items in a preview search is limited. | Q51945154 | ||
| Understanding the function of visual short-term memory: transsaccadic memory, object correspondence, and gaze correction. | Q51965251 | ||
| Search for multiple targets: remember the targets, forget the search. | Q51968128 | ||
| Short-term consolidation of visual patterns interferes with visuo-spatial attention: converging evidence from human electrophysiology. | Q51970651 | ||
| Spatial attention freezes during the attention blink. | Q51980119 | ||
| Neural measures reveal individual differences in controlling access to working memory. | Q51987005 | ||
| Early, involuntary top-down guidance of attention from working memory. | Q51992855 | ||
| Electrophysiological measures of maintaining representations in visual working memory. | Q51992901 | ||
| Visual search is slowed when visuospatial working memory is occupied. | Q51999178 | ||
| Neural activity predicts individual differences in visual working memory capacity. | Q52001274 | ||
| Visual search remains efficient when visual working memory is full. | Q52018901 | ||
| Visual search has no memory. | Q52037961 | ||
| Information integration across saccadic eye movements. | Q52097522 | ||
| Visual masking and visual integration across saccadic eye movements. | Q52122209 | ||
| Visual search has memory. | Q52131911 | ||
| Interactions between visual working memory and selective attention. | Q52139851 | ||
| Measurement of ERP latency differences: A comparison of single-participant and jackknife-based scoring methods | Q57203598 | ||
| Electrophysiological measurement of rapid shifts of attention during visual search | Q59070140 | ||
| Serial deployment of attention during visual search | Q73202800 | ||
| Jackknife-based method for measuring LRP onset latency differences | Q74307170 | ||
| Dissociations among attention, perception, and awareness during object-substitution masking | Q79312876 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | electrophysiology | Q1154774 |
| visual working memory | Q97700035 | ||
| P304 | page(s) | e8042 | |
| P577 | publication date | 2009-11-26 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Visual search elicits the electrophysiological marker of visual working memory | |
| P478 | volume | 4 |
| Q35670825 | A common discrete resource for visual working memory and visual search |
| Q40273444 | Altered interhemispheric resting state functional connectivity during passive hyperthermia |
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| Q51011033 | Contralateral delay activity reveals life-span age differences in top-down modulation of working memory contents. |
| Q91674715 | Contralateral delay activity tracks the storage of visually presented letters and words |
| Q36877222 | Distributed patterns of activity in sensory cortex reflect the precision of multiple items maintained in visual short-term memory |
| Q47174828 | ERP evidence for temporal independence of set size and object updating in object substitution masking. |
| Q34395453 | Electrophysiological evidence for immature processing capacity and filtering in visuospatial working memory in adolescents |
| Q44989624 | Event-related potentials reveal the effect of prior knowledge on competition for representation and attentional capture |
| Q51046799 | Finding memory in search: the effect of visual working memory load on visual search. |
| Q35236894 | Improvement in visual search with practice: mapping learning-related changes in neurocognitive stages of processing |
| Q48680973 | In and out of consciousness: sustained electrophysiological activity reflects individual differences in perceptual awareness. |
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| Q58122726 | Long-Term Visual Memory and Its Role in Learning Suppression |
| Q42004387 | More target features in visual working memory leads to poorer search guidance: evidence from contralateral delay activity |
| Q26992065 | Multiple neural states of representation in short-term memory? It's a matter of attention |
| Q33725738 | Neural limits to representing objects still within view. |
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| Q34611084 | No evidence for an item limit in change detection. |
| Q39392536 | On the Role of the Inferior Intraparietal Sulcus in Visual Working Memory for Lateralized Single-feature Objects. |
| Q36244947 | Precision of working memory for visual motion sequences and transparent motion surfaces |
| Q37136593 | Strengthened effective connectivity underlies transfer of working memory training to tests of short-term memory and attention |
| Q36208076 | The cognitive neuroscience of visual short-term memory |
| Q26775249 | The contralateral delay activity as a neural measure of visual working memory |
| Q30437415 | The development of organized visual search. |
| Q34583542 | The temporal evolution of electromagnetic markers sensitive to the capacity limits of visual short-term memory |
| Q37135697 | Visual search demands dictate reliance on working memory storage |
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| Q41653201 | Working memory load predicts visual search efficiency: Evidence from a novel pupillary response paradigm |
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