scholarly article | Q13442814 |
P356 | DOI | 10.1126/SCIENCE.154.3756.1583 |
P953 | full work available at URL | https://syndication.highwire.org/content/doi/10.1126/science.154.3756.1583 |
P698 | PubMed publication ID | 5924930 |
P2093 | author name string | J. Beatty | |
D. Kahneman | |||
P2860 | cites work | Pupil Size as Related to Interest Value of Visual Stimuli | Q28202976 |
Pupil Size in Relation to Mental Activity during Simple Problem-Solving | Q34684009 | ||
INTERFERENCE, REHEARSAL, AND SHORT-TERM RETENTION OF DIGITS. | Q52282411 | ||
P433 | issue | 3756 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1583-1585 | |
P577 | publication date | 1966-12-01 | |
P1433 | published in | Science | Q192864 |
P1476 | title | Pupil diameter and load on memory | |
Pupil Diameter and Load on Memory | |||
P478 | volume | 154 |
Q56914003 | A Model Relating Pupil Diameter to Mental Workload and Lighting Conditions |
Q27333894 | A Novel Pupillometric Method for Indexing Word Difficulty in Individuals With and Without Aphasia |
Q61449252 | A Pilot Study of Behavioral, Physiological, and Subjective Responses to Varying Mental Effort Requirements in Attention-Deficit/Hyperactivity Disorder |
Q90090064 | A Pupillometric Examination of Cognitive Control in Taxonomic and Thematic Semantic Memory |
Q64075080 | A Review of Psychophysiological Measures to Assess Cognitive States in Real-World Driving |
Q58710984 | A Tipping Point in Listening Effort: Effects of Linguistic Complexity and Age-Related Hearing Loss on Sentence Comprehension |
Q36043401 | A closer look at cognitive control: differences in resource allocation during updating, inhibition and switching as revealed by pupillometry. |
Q94468595 | A closer look at the timecourse of mind wandering: Pupillary responses and behaviour |
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Q47724534 | A multifaceted investigation of the link between mental fatigue and task disengagement. |
Q47562243 | A novel blink detection method based on pupillometry noise. |
Q28240775 | ADHD subjects fail to suppress eye blinks and microsaccades while anticipating visual stimuli but recover with medication |
Q53279971 | Age differences in emotion regulation effort: Pupil response distinguishes reappraisal and distraction for older but not younger adults. |
Q56445809 | An eye-tracking study on the effect of infographic structures on viewer’s comprehension and cognitive load |
Q47351836 | Anticipating cognitive effort: roles of perceived error-likelihood and time demands |
Q93051523 | Anticipatory Baseline Pupil Diameter Is Sensitive to Differences in Hearing Thresholds |
Q38405942 | Assessing stimulus-stimulus (semantic) conflict in the Stroop task using saccadic two-to-one color response mapping and preresponse pupillary measures |
Q55395177 | Assessing the relationship between pupil diameter and visuocortical activity. |
Q88548240 | Association between pupil dilation and implicit processing prior to object recognition via insight |
Q34325397 | Attention to bright surfaces enhances the pupillary light reflex. |
Q47203743 | Attentional adjustment to conflict strength: evidence from the effects of manipulating flanker-target SOA on response times and prestimulus pupil size. |
Q92504647 | Autobiographical Memory Increases Pupil Dilation |
Q64261007 | Automated pupillometry to detect command following in neurological patients: a proof-of-concept study |
Q93050855 | Autonomic Nervous System Correlates of Speech Categorization Revealed Through Pupillometry |
Q47832922 | Back to Pupillometry: How Cortical Network State Fluctuations Tracked by Pupil Dynamics Could Explain Neural Signal Variability in Human Cognitive Neuroscience. |
Q99710977 | Background luminance effects on pupil size associated with emotion and saccade preparation |
Q59125966 | Best Practices and Advice for Using Pupillometry to Measure Listening Effort: An Introduction for Those Who Want to Get Started |
Q58758959 | Beyond Self-Report: A Review of Physiological and Neuroscientific Methods to Investigate Consumer Behavior |
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Q61811688 | Both a Gauge and a Filter: Cognitive Modulations of Pupil Size |
Q34359854 | Brain-wide gain modulation: the rich get richer |
Q34252376 | Bright illusions reduce the eye's pupil |
Q91313350 | CHAP: Open-source software for processing and analyzing pupillometry data |
Q44412092 | Can Limitations of Visuospatial Attention Be Circumvented? A Review |
Q41868054 | Challenge-driven attention: interacting frontal and brainstem systems |
Q50766363 | Changes in pupil diameter entrained by cortically initiated changes in attention. |
Q47382320 | Changes of Pupil Size and Rehearsal Strategies in a Short-Term Memory Task |
Q27335320 | Choosing in freedom or forced to choose? Introspective blindness to psychological forcing in stage-magic |
Q30712629 | Chunking improves symbolic sequence processing and relies on working memory gating mechanisms |
Q34181768 | Cognitive control reflects context monitoring, not motoric stopping, in response inhibition |
Q37074571 | Cognitive effort and pupil dilation in controlled and automatic processes |
Q48365881 | Cognitive effort is modulated outside of the explicit awareness of conflict frequency: Evidence from pupillometry |
Q34336295 | Combining and comparing EEG, peripheral physiology and eye-related measures for the assessment of mental workload |
Q59789277 | Convergence of monosynaptic and polysynaptic sensory paths onto common motor outputs in a feeding connectome |
Q50553064 | Counting is a spatial process: evidence from eye movements. |
Q37571468 | Decision-related pupil dilation reflects upcoming choice and individual bias. |
Q90285617 | Desirability, availability, credit assignment, category learning, and attention: Cognitive-emotional and working memory dynamics of orbitofrontal, ventrolateral, and dorsolateral prefrontal cortices |
Q57284877 | Differentiating between Models of Perceptual Decision Making Using Pupil Size Inferred Confidence |
Q37578477 | Dissociation between neural signatures of stimulus and choice in population activity of human V1 during perceptual decision-making. |
Q35663633 | Does Dysphoria Lead to Divergent Mental Fatigue Effects on a Cognitive Task? |
Q90675496 | Dual Process Theory of Thought and Default Mode Network: A Possible Neural Foundation of Fast Thinking |
Q34033260 | Dynamic pupillary exchange engages brain regions encoding social salience |
Q42265228 | EEG and Eye Tracking Signatures of Target Encoding during Structured Visual Search |
Q58738033 | Early Trajectory Prediction in Elite Athletes |
Q64114902 | Effect of Speech Rate on Neural Tracking of Speech |
Q64102904 | Effects of Aging and Dual-Task Demands on the Comprehension of Less Expected Sentence Continuations: Evidence From Pupillometry |
Q52269186 | Effects of Grouping on the Pupillary Response in a Short-Term Memory Task |
Q44871392 | Effects of Photo-Depicted Pupil Diameter on Judgments of Others' Attentiveness and on Facial Recognition Memory. |
Q52321516 | Effects of Visual Imagery on Visual Sensitivity and Pupil Diameter |
Q52333316 | Effects of arithmetic problem difficulty on pupillary dilation in normals and educable retardates |
Q31131795 | Effects of incentive on working memory capacity: behavioral and pupillometric data |
Q44486555 | Effects of intranasal oxytocin on pupil dilation indicate increased salience of socioaffective stimuli |
Q30413888 | Effects of music engagement on responses to painful stimulation |
Q72120693 | Effects of oxazepam on performance and event-related brain potentials in vigilance tasks with static and dynamic stimuli |
Q52127766 | Effects of verbalization and incentive on the pupil response to mental activity. |
Q46348056 | Effects of visual and verbal presentation on cognitive load in vigilance, memory, and arithmetic tasks |
Q39061898 | Efferent influences on the bioelectrical activity of the retina in primates. |
Q30365136 | Effort Not Speed Characterizes Comprehension of Spoken Sentences by Older Adults with Mild Hearing Impairment |
Q51152540 | Emotional arousal and discount rate in intertemporal choice are reference dependent. |
Q38907541 | Emotional arousal predicts intertemporal choice |
Q50628398 | Emotional words impact the mind but not the body: evidence from pupillary responses. |
Q33961646 | Estimation of mental effort in learning visual search by measuring pupil response |
Q37650601 | Executive control and working memory are involved in sub-second repetitive motor timing. |
Q92829597 | Explore or reset? Pupil diameter transiently increases in self-chosen switches between cognitive labor and leisure in either direction |
Q48626122 | Exploring the numerical mind by eye-tracking: a special issue |
Q33854821 | Eye Behavior Associated with Internally versus Externally Directed Cognition. |
Q48493056 | Eye movement during reading in young adults with cerebral palsy measured with eye tracking. |
Q90145587 | Eye pupil signals information gain |
Q58741194 | Eye tracking cognitive load using pupil diameter and microsaccades with fixed gaze |
Q88866275 | Eyes and ears: Using eye tracking and pupillometry to understand challenges to speech recognition |
Q50891362 | Failure to regulate: counterproductive recruitment of top-down prefrontal-subcortical circuitry in major depression. |
Q47239934 | Fine-grained versus categorical: Pupil size differentiates between strategies for spatial working memory performance |
Q64964468 | Focused attention predicts visual working memory performance in 13-month-old infants: A pupillometric study. |
Q30650218 | From incoherence to mirth: neuro-cognitive processing of garden-path jokes |
Q43999113 | From outcome prediction to action selection: developmental change in the role of action-effect bindings |
Q35541548 | Fronto-parietal network supports context-dependent speech comprehension. |
Q38563671 | Gaze and pupil changes during navigation in age-related macular degeneration. |
Q38372917 | Grounding by Attention Simulation in Peripersonal Space: Pupils Dilate to Pinch Grip But Not Big Size Nominal Classifier |
Q36959384 | Handedness is related to neural mechanisms underlying hemispheric lateralization of face processing |
Q38439318 | Hemispheric laterality measured in Rembrandt's portraits using pupil diameter and aesthetic verbal judgements |
Q30382302 | High Working Memory Load Impairs Language Processing during a Simulated Piloting Task: An ERP and Pupillometry Study. |
Q60310164 | How pupil responses track value-based decision-making during and after reinforcement learning |
Q92350771 | How the size of the to-be-learned material influences the encoding and later retrieval of associative memories: A pupillometric assessment |
Q27307998 | How to become a mentalist: reading decisions from a competitor's pupil can be achieved without training but requires instruction |
Q30484128 | How verbal memory loads consume attention |
Q91623249 | Human Auditory Detection and Discrimination Measured with the Pupil Dilation Response |
Q41653559 | Human place and response learning: navigation strategy selection, pupil size and gaze behavior. |
Q50664795 | Imagining sex and adapting to it: different aftereffects after perceiving versus imagining faces. |
Q30387730 | Impact of Background Noise and Sentence Complexity on Processing Demands during Sentence Comprehension. |
Q52336985 | Incentive effects and pupillary changes in association learning |
Q64903049 | Individual Variations in Effort: Assessing Pupillometry for the Hearing Impaired. |
Q28750393 | Individual differences in some (but not all) medial prefrontal regions reflect cognitive demand while regulating unpleasant emotion |
Q50628361 | Individual differences in the allocation of attention to items in working memory: Evidence from pupillometry. |
Q63976683 | Infants' brain responses to pupillary changes in others are affected by race |
Q52242339 | Influence of physical activity on concentration among junior high-school students. |
Q58576203 | Infrared Camera-Based Non-contact Measurement of Brain Activity From Pupillary Rhythms |
Q51895064 | Inspection time and visual-perceptual processing. |
Q92876985 | Inverse effects of tDCS over the left versus right DLPC on emotional processing: A pupillometry study |
Q92132836 | Investigating sex differences, cognitive effort, strategy, and performance on a computerised version of the mental rotations test via eye tracking |
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Q38652955 | Isolating Discriminant Neural Activity in the Presence of Eye Movements and Concurrent Task Demands |
Q47371394 | Keeping an eye on the truth? Pupil size changes associated with recognition memory |
Q52181038 | Lateral asymmetries of pupillary responses. |
Q47313089 | Lateralisation of emotions: evidence from pupil size measurement. |
Q48101401 | Listening Effort: How the Cognitive Consequences of Acoustic Challenge Are Reflected in Brain and Behavior |
Q47297970 | Locus coeruleus activity strengthens prioritized memories under arousal |
Q52121708 | Looking with the mind's eye: experimental studies of ocular motility during daydreaming and mental arithmetic |
Q37149514 | Lyin' eyes: ocular-motor measures of reading reveal deception |
Q48425086 | Lying in a native and foreign language. |
Q39244050 | Measuring physician cognitive load: validity evidence for a physiologic and a psychometric tool. |
Q48029786 | Memory for incidentally perceived social cues: Effects on person judgment |
Q30459521 | Memory strength and specificity revealed by pupillometry |
Q47364755 | Men's and women's affective response to photographed subjects who differ in iris-color, pupil-size and sex. |
Q38498572 | Mental effort and task interference in auditory attention |
Q40109818 | Mental workload measurement for emergency operating procedures in digital nuclear power plants |
Q90123087 | Modeling pupil responses to rapid sequential events |
Q30382313 | Monitoring Alpha Oscillations and Pupil Dilation across a Performance-Intensity Function |
Q27303035 | Motivational and emotional influences on cognitive control in depression: A pupillometry study |
Q55664945 | Motivational goal-priming with or without awareness produces faster and stronger force exertion. |
Q35082589 | N400 amplitude reduction correlates with an increase in pupil size |
Q92483457 | No modulation of pupil size and event-related pupil response by transcutaneous auricular vagus nerve stimulation (taVNS) |
Q58763440 | No supplementary evidence of attention to a spatial cue when saccadic facilitation is absent |
Q47650067 | Noradrenaline and dopamine neurons in the reward/effort trade-off: a direct electrophysiological comparison in behaving monkeys. |
Q36313739 | Observing the what and when of language production for different age groups by monitoring speakers' eye movements |
Q40056209 | Ocular accommodation and cognitive demand: an additional indicator besides pupil size and cardiovascular measures? |
Q89543381 | Ocular signatures of proactive versus reactive cognitive control in young adults |
Q30432393 | Olivocochlear efferent function: issues regarding methods and the interpretation of results |
Q83226156 | One-shot learning and behavioral eligibility traces in sequential decision making |
Q47687069 | Open your eyes for prediction errors. |
Q89414750 | Opposing pupil responses to offered and anticipated reward values |
Q37831827 | Orienting of attention, pupil size, and the norepinephrine system. |
Q37216489 | Oxytocin enhances pupil dilation and sensitivity to 'hidden' emotional expressions |
Q52129252 | Perceptual Deficit during a Mental Task. |
Q52289140 | Phasic not tonic pupillary responses vary with auditory vigilance performance. |
Q55154183 | Physiological Measures of Dopaminergic and Noradrenergic Activity During Attentional Set Shifting and Reversal. |
Q33450046 | Physiological recordings: basic concepts and implementation during functional magnetic resonance imaging |
Q33793908 | Positive gaze preferences in older adults: assessing the role of cognitive effort with pupil dilation |
Q46102050 | Pre-stimulus pupil dilation and the preparatory control of attention |
Q62666978 | Preliminary Studies on Personalized Preference Prediction from Gaze in Comparing Visualizations |
Q89542995 | Preprocessing pupil size data: Guidelines and code |
Q57758226 | Processing load during listening: The influence of task characteristics on the pupil response |
Q36317890 | Processing load induced by informational masking is related to linguistic abilities |
Q37235711 | Processing speed training increases the efficiency of attentional resource allocation in young adults |
Q30410566 | Proximal and cognitively-induced accommodation |
Q37068014 | Pubertal changes in emotional information processing: pupillary, behavioral, and subjective evidence during emotional word identification |
Q50484909 | Pupil Diameter May Reflect Motor Control and Learning. |
Q36170985 | Pupil Diameter Tracks Lapses of Attention |
Q90089871 | Pupil Dilation Reflects Task Relevance Prior to Search |
Q47130460 | Pupil Dilation Reflects the Creation and Retrieval of Memories |
Q28648444 | Pupil Dilation and EEG Alpha Frequency Band Power Reveal Load on Executive Functions for Link-Selection Processes during Text Reading |
Q37382316 | Pupil Dynamics Reflect Behavioral Choice and Learning in a Go/NoGo Tactile Decision-Making Task in Mice |
Q38876167 | Pupil Size Changes as an Active Information Channel for Biofeedback Applications. |
Q43832543 | Pupil Size and Problem Solving |
Q47404930 | Pupil Size as a Measure of Arousal during Information Processing |
Q36834304 | Pupil Size in Relation to Cortical States during Isoflurane Anesthesia |
Q36225160 | Pupil Sizes Scale with Attentional Load and Task Experience in a Multiple Object Tracking Task |
Q41123949 | Pupil adaptation corresponds to quantitative measures of autism traits in children |
Q35913082 | Pupil diameter reflects uncertainty in attentional selection during visual search |
Q52052242 | Pupil dilation as a measure of processing load in simultaneous interpretation and other language tasks. |
Q50050361 | Pupil dilation as an index of effort in cognitive control tasks: A review. |
Q33701453 | Pupil dilation betrays the timing of decisions |
Q36448538 | Pupil dilation co-varies with memory strength of individual traces in a delayed response paired-associate task |
Q34097077 | Pupil dilation dynamics track attention to high-level information |
Q36881882 | Pupil dilation in the Simon task as a marker of conflict processing. |
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Q55092013 | Pupil dilation reflects the time course of emotion recognition in human vocalizations. |
Q52647840 | Pupil dilation tracks the dynamics of mnemonic interference resolution. |
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Q30620109 | Pupil fluctuations track fast switching of cortical states during quiet wakefulness |
Q37408620 | Pupil fluctuations track rapid changes in adrenergic and cholinergic activity in cortex. |
Q35109166 | Pupil response and the subliminal mere exposure effect |
Q41581953 | Pupil response components: attention-light interaction in patients with Parinaud's syndrome |
Q90533215 | Pupil size and search performance in low and high perceptual load |
Q100428075 | Pupil size changes signal hippocampus-related memory functions |
Q47412896 | Pupil size dynamics during fixation impact the accuracy and precision of video-based gaze estimation. |
Q55026231 | Pupil size reflects successful encoding and recall of memory in humans. |
Q47435817 | Pupil size reflects the focus of feature-based attention. |
Q47397632 | Pupil size reveals preparatory processes in the generation of pro-saccades and anti-saccades. |
Q47401300 | Pupil size tracks perceptual content and surprise. |
Q57256690 | Pupil size variation as an indication of affective processing |
Q30445220 | Pupil size varies with word listening and response selection difficulty in older adults with hearing loss. |
Q43585088 | Pupil size, information overload, and performance differences |
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Q98386023 | Pupil-linked arousal signals track the temporal organization of events in memory |
Q52113469 | Pupillary Changes during Encoding, Storage, and Retrieval of Information |
Q38505665 | Pupillary Measurement and Release from Proactive Inhibition |
Q47667467 | Pupillary Response and Phenotype in ASD: Latency to Constriction Discriminates ASD from Typically Developing Adolescents. |
Q47396435 | Pupillary Size as an Index of Preference in Political Candidates |
Q34520958 | Pupillary Stroop effects |
Q51067774 | Pupillary and reaction time measures of sustained processing of negative information in depression. |
Q52109192 | Pupillary changes during recall in children |
Q24677593 | Pupillary contagion: central mechanisms engaged in sadness processing |
Q50462071 | Pupillary correlates of covert shifts of attention during working memory maintenance |
Q53132402 | Pupillary correlates of lapses of sustained attention. |
Q51855351 | Pupillary dilation as an index of task demands. |
Q90485703 | Pupillary dilation responses as a midlife indicator of risk for Alzheimer's disease: association with Alzheimer's disease polygenic risk |
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Q27014852 | Pupillary motility: bringing neuroscience to the psychiatry clinic of the future |
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Q39121054 | Pupillary response to complex interdependent tasks: A cognitive-load theory perspective. |
Q48946040 | Pupillary responses and event-related potentials as indices of the orienting reflex |
Q27204271 | Pupillary size as an indicator of preference in humor |
Q52126723 | Pupillary, heart rate, and skin resistance changes during a mental task |
Q48202904 | Pupillometric Signs of Brain Activation Vary with Level of Cognitive Processing |
Q42114622 | Pupillometric evidence for the locus coeruleus-noradrenaline system facilitating attentional processing of action-triggered visual stimuli. |
Q58133495 | Pupillometry Reveals That Context Benefit in Speech Perception Can Be Disrupted by Later-Occurring Sounds, Especially in Listeners With Cochlear Implants |
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Q37623664 | Pupillometry reveals a mechanism for the Autism Spectrum Disorder (ASD) advantage in visual tasks |
Q38808472 | Pupillometry shows the effort of auditory attention switching |
Q61631674 | Pupillometry: A Survey of Sources of Variation |
Q38546060 | Pupillometry: A Window to the Preconscious? |
Q64216306 | Pupillometry: Psychology, Physiology, and Function |
Q91012044 | Rapid Brain Responses to Familiar vs. Unfamiliar Music - an EEG and Pupillometry study |
Q36067189 | Rational regulation of learning dynamics by pupil-linked arousal systems |
Q52230867 | Recall, recognition, and rate: memory and the heart. |
Q30492473 | Reduced capacity to sustain positive emotion in major depression reflects diminished maintenance of fronto-striatal brain activation |
Q36447539 | Relationships between Pupil Diameter and Neuronal Activity in the Locus Coeruleus, Colliculi, and Cingulate Cortex |
Q36395674 | Reward favors the prepared: Incentive and task-informative cues interact to enhance attentional control |
Q48516493 | Safe and sensible preprocessing and baseline correction of pupil-size data. |
Q30442033 | Second language experience modulates word retrieval effort in bilinguals: evidence from pupillometry |
Q30364127 | Short-Term Monocular Deprivation Enhances Physiological Pupillary Oscillations. |
Q69863560 | Sociometric Choice: A Study in Pupillary Response |
Q30402130 | Speech-perception training for older adults with hearing loss impacts word recognition and effort. |
Q64110848 | Standards in Pupillography |
Q36354591 | Striatal and midbrain connectivity with the hippocampus selectively boosts memory for contextual novelty |
Q91604548 | Student engagement, assessed using heart rate, shows no reset following active learning sessions in lectures |
Q89602674 | Subjective semantic surprise resulting from divided attention biases evaluations of an idea's creativity |
Q64114874 | Supportive hand-holding attenuates pupillary responses to stress in adult couples |
Q52204807 | Surface form and the spacing effect. |
Q35556190 | Systematic influence of gaze position on pupil size measurement: analysis and correction |
Q64115830 | Target detection increases pupil diameter and enhances memory for background scenes during multi-tasking |
Q92403691 | Task Conflict and Task Control: A Mini-Review |
Q56971099 | Task-evoked pupil responses reflect internal belief states |
Q38262481 | Task-evoked pupillometry provides a window into the development of short-term memory capacity |
Q30358520 | Temporal alignment of pupillary response with stimulus events via deconvolution |
Q38504916 | Temporal characteristics of primary-secondary message interference in a dichotic listening task |
Q36569891 | Temporal dynamics of motivation-cognitive control interactions revealed by high-resolution pupillometry. |
Q27317251 | The Eye is Listening: Music-Induced Arousal and Individual Differences Predict Pupillary Responses |
Q27333161 | The Frequency of Rapid Pupil Dilations as a Measure of Linguistic Processing Difficulty |
Q27318253 | The Impact of Auditory Spectral Resolution on Listening Effort Revealed by Pupil Dilation |
Q59798894 | The Index of Cognitive Activity as a Measure of Cognitive Processing Load in Dual Task Settings |
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Q57758219 | The Pupil Dilation Response to Auditory Stimuli: Current State of Knowledge |
Q37067087 | The Role of Cognitive and Perceptual Loads in Inattentional Deafness |
Q27304911 | The Timing and Effort of Lexical Access in Natural and Degraded Speech |
Q41865287 | The World (of Warcraft) through the eyes of an expert |
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Q90694195 | The effect of food anticipation on cognitive function: An eye tracking study |
Q98200157 | The effect of oxytocin on pupil response to naturalistic dynamic facial expressions |
Q44952478 | The eye pupil adjusts to imaginary light |
Q30574002 | The interplay between the anticipation and subsequent online processing of emotional stimuli as measured by pupillary dilatation: the role of cognitive reappraisal |
Q39494723 | The norepinephrine system affects specific neurophysiological subprocesses in the modulation of inhibitory control by working memory demands |
Q50602520 | The pupil as an indicator of unconscious memory: Introducing the pupil priming effect. |
Q30399361 | The pupil response is sensitive to divided attention during speech processing |
Q30384624 | The pupil response reveals increased listening effort when it is difficult to focus attention. |
Q36532965 | The pupillary response discriminates between subjective and objective familiarity and novelty. |
Q35670919 | The pupillary response in cognitive psychophysiology and schizophrenia |
Q47191028 | The role of pupil size in communication. Is there room for learning? |
Q58796008 | The size of the attentional window when measured by the pupillary response to light |
Q37725633 | The ties to unbind: age-related differences in feature (un)binding in working memory for emotional faces |
Q33346308 | The use of Tholos software for combining measures of mental workload: toward theoretical and methodological improvements |
Q52103483 | The visual accommodation response during concurrent mental activity. |
Q50675285 | Through the eyes of the own-race bias: eye-tracking and pupillometry during face recognition. |
Q36006120 | Tracking down the path of memory: eye scanpaths facilitate retrieval of visuospatial information |
Q90089982 | Tracking the Dynamics of Mind Wandering: Insights from Pupillometry |
Q42825639 | Tracking the allocation of attention using human pupillary oscillations |
Q47369134 | Tracking working memory maintenance with pupillometry |
Q91414824 | Transcending time in the brain: How event memories are constructed from experience |
Q47142902 | Uncertainty, epistemics and active inference |
Q37365580 | Unexpected arousal modulates the influence of sensory noise on confidence |
Q30881599 | Use of concurrent pupil dilation assessment to inform interpretation and analysis of fMRI data |
Q59332818 | Using Pupillometry to Assess the Atypical Pupillary Light Reflex and LC-NE System in ASD |
Q67369338 | Visual Significance of Pupillary Response to an Auditory Task |
Q105430035 | Visual speech cues speed processing and reduce effort for children listening in quiet and noise |
Q47101215 | Voluntary modulation of mental effort investment: an fMRI study. |
Q28080669 | Waking State: Rapid Variations Modulate Neural and Behavioral Responses |
Q35987807 | Why do anxious children become depressed teenagers? The role of social evaluative threat and reward processing |
Q41653201 | Working memory load predicts visual search efficiency: Evidence from a novel pupillary response paradigm |
Q110950040 | Workload assessment for mental arithmetic tasks using the task-evoked pupillary response |
Q47186271 | Young children are intrinsically motivated to see others helped |
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