| Q28283504 | Accounting for sequential trial effects in the flanker task: conflict adaptation or associative priming? |
| Q38383931 | Activation of the caudal anterior cingulate cortex due to task-related interference in an auditory Stroop paradigm |
| Q50559630 | Adaptation to (non)valent task disturbance. |
| Q35630621 | Adaptation to conflict via context-driven anticipatory signals in the dorsomedial prefrontal cortex |
| Q35000920 | Adaptation to emotional conflict: evidence from a novel face emotion paradigm |
| Q43180115 | Adaptive effort investment in cognitive and physical tasks: a neurocomputational model. |
| Q64094205 | Additive Effects of Item-Specific and Congruency Sequence Effects in the Vocal Stroop Task |
| Q35216424 | Affective privilege: asymmetric interference by emotional distracters |
| Q40306652 | Age Moderates the Association of Aerobic Exercise with Initial Learning of an Online Task Requiring Cognitive Control |
| Q33926340 | Age-related reorganization of functional networks for successful conflict resolution: a combined functional and structural MRI study |
| Q35046677 | Alertness modulates conflict adaptation and feature integration in an opposite way. |
| Q47431432 | Amplitude of low-frequency oscillations associated with emotional conflict control |
| Q47392857 | An Investigation of the Reliability and Self-Regulatory Correlates of Conflict Adaptation |
| Q28656180 | An information theory account of cognitive control |
| Q37199467 | An orienting response is not enough: Bivalency not infrequency causes the bivalency effect |
| Q38195793 | Analyzing distributional properties of interference effects across modalities: chances and challenges |
| Q31142545 | Anterior cingulate cortex and conflict detection: an update of theory and data |
| Q34124321 | Anticipating conflict facilitates controlled stimulus-response selection. |
| Q37889726 | Are there bilingual advantages on nonlinguistic interference tasks? Implications for the plasticity of executive control processes |
| Q34193383 | Assessments of function and biochemistry of the anterior cingulate cortex in schizophrenia. |
| Q34477697 | Atrophy in two attention networks is associated with performance on a Flanker task in neurodegenerative disease |
| Q90264775 | Attentional Reorientation and Inhibition Adjustment in a Verbal Stroop Task: A Lifespan Approach to Interference and Sequential Congruency Effect |
| Q48169324 | Attentional control adjustments in Eriksen and Stroop task performance can be independent of response conflict |
| Q45277922 | Attentional control of the creation and retrieval of stimulus-response bindings |
| Q34669665 | Atypical development of the executive attention network in children with chromosome 22q11.2 deletion syndrome |
| Q30427604 | Auditory conflict resolution correlates with medial-lateral frontal theta/alpha phase synchrony |
| Q38005684 | Automatic motor activation in the executive control of action |
| Q34619946 | Bayesian modeling of flexible cognitive control |
| Q36696483 | Behavioral and electrophysiological correlates of training-induced cognitive control improvements |
| Q35895516 | Behavioral consequences of selective damage to frontal pole and posterior cingulate cortices |
| Q38067645 | Blinking predicts enhanced cognitive control |
| Q102372861 | Brain functional connectivity dynamics at rest in the aftermath of affective and cognitive challenges |
| Q24651882 | CNTRICS final task selection: executive control |
| Q36306207 | Can application and transfer of strategy be observed in low visibility condition? |
| Q30482909 | Catechol-O-methyltransferase polymorphism modulates cognitive control in children with chromosome 22q11.2 deletion syndrome |
| Q46658877 | Causal evidence for learning-dependent frontal-lobe contributions to cognitive control |
| Q33506811 | Cingulate cortex: diverging data from humans and monkeys |
| Q48295294 | Co-occurrence of sequential and practice effects in the Simon task: Evidence for two independent mechanisms affecting response selection |
| Q37290018 | Cognate Costs in Bilingual Speech Production: Evidence from Language Switching. |
| Q49874469 | Cognitive Control Over Prospective Task-set Interference |
| Q37518487 | Cognitive control activity is modulated by the magnitude of interference and pre-activation of monitoring mechanisms |
| Q48467620 | Cognitive control mechanisms resolve conflict through cortical amplification of task-relevant information |
| Q47144428 | Comparing Stroop-like and Simon Effects on Perceptual Features. |
| Q34584642 | Comparing conscious and unconscious conflict adaptation |
| Q37581995 | Comparing neural substrates of emotional vs. non-emotional conflict modulation by global control context |
| Q40379828 | Conditional accuracy in response interference tasks: Evidence from the Eriksen flanker task and the spatial conflict task |
| Q36219921 | Conflict Adaptation and Cue Competition during Learning in an Eriksen Flanker Task |
| Q61807002 | Conflict Adaptation in 5-Year-Old Preschool Children: Evidence From Emotional Contexts |
| Q48256681 | Conflict adaptation and cognitive control adjustments following traumatic brain injury. |
| Q37413522 | Conflict adaptation in prefrontal cortex: now you see it, now you don't |
| Q47984485 | Conflict adaptation: it is not what you expect |
| Q34571325 | Conflict background triggered congruency sequence effects in graphic judgment task |
| Q37258861 | Conflict effects without conflict in anterior cingulate cortex: multiple response effects and context specific representations |
| Q35676331 | Conflict in object affordance revealed by grip force. |
| Q48353274 | Conflict monitoring and adaptation as reflected by N2 amplitude in obsessive-compulsive disorder. |
| Q37055083 | Conflict monitoring and decision making: reconciling two perspectives on anterior cingulate function |
| Q63470488 | Conflict monitoring and detection in the bilingual brain |
| Q81526828 | Conflict monitoring and feature overlap: two sources of sequential modulations |
| Q28238276 | Conflict-frequency affects flanker interference: role of stimulus-ensemble-specific practiceand flanker-response contingencies |
| Q29999981 | Conflict-induced behavioural adjustment: a clue to the executive functions of the prefrontal cortex |
| Q45720834 | Conflict-specific effects of accessory stimuli on cognitive control in the Stroop task and the Simon task |
| Q48366585 | Conflict-triggered goal shielding: response conflicts attenuate background monitoring for prospective memory cues |
| Q33649065 | Conflict-triggered top-down control: default mode, last resort, or no such thing? |
| Q31142550 | Congruency sequence effects and cognitive control |
| Q40817019 | Congruency sequence effects and previous response times: conflict adaptation or temporal learning? |
| Q37142388 | Congruency sequence effects are driven by previous-trial congruency, not previous-trial response conflict |
| Q33897365 | Congruency sequence effects without feature integration or contingency learning confounds. |
| Q33709774 | Conscious and unconscious context-specific cognitive control |
| Q48311363 | Context specificity of conflict frequency-dependent control |
| Q35113360 | Context specificity of post-error and post-conflict cognitive control adjustments |
| Q42968624 | Context-specific temporal learning with non-conflict stimuli: proof-of-principle for a learning account of context-specific proportion congruent effects |
| Q51971654 | Contextual adjustments in cognitive control across tasks. |
| Q87036748 | Contextual influences on the sequential congruency effect |
| Q41822680 | Contingency and congruency switch in the congruency sequence effect: a reply to Blais, Stefanidi, and Brewer (2014). |
| Q34192128 | Contributions of modern measurement theory to measuring executive function in early childhood: An empirical demonstration. |
| Q36539444 | Control over conflict during movement preparation: role of posterior parietal cortex |
| Q47810346 | Controlled information processing, automaticity, and the burden of proof |
| Q46063648 | Correlations between spatial compatibility effects: are arrows more like locations or words? |
| Q34462489 | Creatures of habit (and control): a multi-level learning perspective on the modulation of congruency effects |
| Q50983229 | Differences in the strength of distractor inhibition do not affect distractor-response bindings. |
| Q33823611 | Differential age-related decline in conflict-driven task-set shielding from emotional versus non-emotional distracters |
| Q28972345 | Differentiating SCT and inattentive symptoms in ADHD using fMRI measures of cognitive control |
| Q38205173 | Disentangling posterror and postconflict reduction of interference. |
| Q37444011 | Dissociable early attentional control mechanisms underlying cognitive and affective conflicts. |
| Q46624812 | Dissociable networks control conflict during perception and response selection: a transcranial magnetic stimulation Study. |
| Q41159716 | Distinct brain responses to different inhibitions: Evidence from a modified Flanker Task |
| Q47425708 | Do Young Children Modulate Their Cognitive Control? |
| Q41900366 | Does attentional selectivity in the flanker task improve discretely or gradually? |
| Q48148170 | Domain-specific conflict adaptation without feature repetitions. |
| Q37097025 | Dorsal medial prefrontal cortex plays a necessary role in rapid error prediction in humans. |
| Q37365594 | Double dissociation between action-driven and perception-driven conflict resolution invoking anterior versus posterior brain systems |
| Q38381056 | Dynamic adjustments of attentional control in healthy aging |
| Q36899722 | Dynamic filtering improves attentional state prediction with fNIRS. |
| Q46674584 | ERP Evidence for Implicit Priming of Top-Down Control of Attention |
| Q50448510 | ERP evidence for conflict in contingency learning |
| Q92617451 | Effects of Palatable Food Versus Thin Figure Conflicts on Responses of Young Dieting Women |
| Q41899685 | Effects of arousal on cognitive control: empirical tests of the conflict-modulated Hebbian-learning hypothesis |
| Q53485107 | Ego depletion in visual perception: Ego-depleted viewers experience less ambiguous figure reversal. |
| Q36405762 | Emotional and Nonemotional Conflict Processing in Pediatric and Adult Anxiety Disorders |
| Q52657072 | Evaluating web-based cognitive-affective remediation in recent trauma survivors: study rationale and protocol. |
| Q42055892 | Even with time, conflict adaptation is not made of expectancies |
| Q90235718 | Evidence against conflict monitoring and adaptation: An updated review |
| Q36381707 | Executive Dysfunctions and Event-Related Brain Potentials in Patients with Amyotrophic Lateral Sclerosis |
| Q48099661 | Executive control over response priming and conflict: a transcranial magnetic stimulation study |
| Q41814569 | Executive control signals in orbitofrontal cortex during response inhibition |
| Q45973579 | Exploring conflict- and target-related movement of visual attention. |
| Q35199235 | Failure of anterior cingulate activation and connectivity with the amygdala during implicit regulation of emotional processing in generalized anxiety disorder |
| Q35952926 | Feature Integration and Task Switching: Diminished Switch Costs after Controlling for Stimulus, Response, and Cue Repetitions |
| Q42001180 | Fronto-parietal network oscillations reveal relationship between working memory capacity and cognitive control. |
| Q47803898 | Generality and specificity in cognitive control: conflict adaptation within and across selective-attention tasks but not across selective-attention and Simon tasks |
| Q33896593 | Generalized signaling for control: evidence from postconflict and posterror performance adjustments. |
| Q35157230 | Going, going, gone: characterizing the time-course of congruency sequence effects |
| Q47846224 | Going, going, gone? Proactive control prevents the congruency sequence effect from rapid decay |
| Q38385721 | He said, she said: episodic retrieval induces conflict adaptation in an auditory Stroop task. |
| Q42407620 | High cognitive reserve is associated with a reduced age-related deficit in spatial conflict resolution |
| Q55341624 | How Do Children Deal With Conflict? A Developmental Study of Sequential Conflict Modulation. |
| Q50435140 | How long-lasting is the post-conflict slowing after incongruent trials? Evidence from the Stroop, Simon, and flanker tasks |
| Q52085550 | Human anterior cingulate neurons and the integration of monetary reward with motor responses. |
| Q36157237 | Human dorsal anterior cingulate cortex neurons mediate ongoing behavioural adaptation. |
| Q41845024 | ISPC effect is not observed when the word comes too late: a time course analysis |
| Q39796388 | If it's hard to read… try harder! Processing fluency as signal for effort adjustments |
| Q35647952 | Impaired visual decision-making in individuals with amblyopia |
| Q35149351 | Implicit learning of stimulus regularities increases cognitive control |
| Q34073098 | Impulsivity and pathological gambling: Is it a state or a trait problem? |
| Q34305774 | In Support of a Distinction between Voluntary and Stimulus-Driven Control: A Review of the Literature on Proportion Congruent Effects |
| Q47837640 | In touch with the Simon effect. |
| Q90122725 | Increasing control improves further control, but it does not enhance memory for the targets in a face-word Stroop task |
| Q47938397 | Individual Alpha Peak Frequency Predicts 10 Hz Flicker Effects on Selective Attention. |
| Q91235639 | Individual Differences in Uncertainty Tolerance Are not Associated With Cognitive Control Functions in the Flanker Task |
| Q48312870 | Individual differences in conflict-monitoring: testing means and covariance hypothesis about the Simon and the Eriksen Flanker task. |
| Q42788327 | Individual differences in response conflict adaptations |
| Q86190016 | Influence of empathetic pain processing on cognition in schizophrenia |
| Q44744141 | Influence of stimulus type on effects of flanker, flanker position, and trial sequence in a saccadic eye movement task |
| Q35181623 | Interactive effects of working memory and trial history on Stroop interference in cognitively healthy aging. |
| Q50716720 | Intertrial interval duration affects error monitoring. |
| Q48213616 | Investigating the contribution of task and response repetitions to the sequential modulations of attentional cueing effects. |
| Q43151761 | Is conflict adaptation an illusion? |
| Q47397785 | Is conflict adaptation due to active regulation or passive carry-over? Evidence from eye movements |
| Q42151471 | Is conflict adaptation triggered by feature repetitions? An unexpected finding |
| Q30457703 | Is conflict monitoring supramodal? Spatiotemporal dynamics of cognitive control processes in an auditory Stroop task |
| Q37985960 | Is consciousness necessary for conflict adaptation? A state of the art. |
| Q92113080 | Layers of latent effects in cognitive control: An EEG investigation |
| Q36220869 | Learning through instructions vs. learning through practice: flanker congruency effects from instructed and applied S-R mappings |
| Q48260399 | Linear increases in BOLD response associated with increasing proportion of incongruent trials across time in a colour Stroop task |
| Q47695672 | Local Control Mechanisms of Implicit and Explicit Conflicts |
| Q33978460 | Long-term response-stimulus associations can influence distractor-response bindings |
| Q34081268 | Mal-adaptation of event-related EEG responses preceding performance errors |
| Q80479890 | Medial frontal cortex function: an introduction and overview |
| Q36254102 | Memory Meets Control in Hippocampal and Striatal Binding of Stimuli, Responses, and Attentional Control States. |
| Q34092479 | Mental fatigue modulates dynamic adaptation to perceptual demand in speeded detection |
| Q38838989 | Metacognition of Working Memory Performance: Trial-by-Trial Subjective Effects from a New Paradigm |
| Q88945784 | Modulating proactive cognitive control by reward: differential anticipatory effects of performance-contingent and non-contingent rewards |
| Q57174041 | Monitoring and control in multitasking |
| Q37388944 | Monitoring attentional state with fNIRS. |
| Q47742324 | Mood states influence cognitive control: the case of conflict adaptation |
| Q58610863 | More evidence that a switch is not (always) a switch: Binning bilinguals reveals dissociations between task and language switching |
| Q34415310 | Multiple cognitive control effects of error likelihood and conflict |
| Q92920906 | Negative Emotional Stimuli Enhance Conflict Resolution Without Altering Arousal |
| Q35158975 | Negative emotion impairs conflict-driven executive control |
| Q37086093 | Neural coding of tactile decisions in the human prefrontal cortex |
| Q44614047 | Neural communication patterns underlying conflict detection, resolution, and adaptation. |
| Q38386844 | Neural systems supporting the control of affective and cognitive conflicts |
| Q47732847 | No pain, no gain: the affective valence of congruency conditions changes following a successful response |
| Q27304774 | Not My Problem: Vicarious Conflict Adaptation with Human and Virtual Co-actors |
| Q84052256 | Observation: Three reasons to avoid having half of the trials be congruent in a four-alternative forced-choice experiment on sequential modulation |
| Q36416231 | Oddball distractors demand attention: neural and behavioral responses to predictability in the flanker task |
| Q37344567 | Opposing influences on conflict-driven adaptation in the Eriksen flanker task |
| Q84963444 | Parallel patterns of spatial compatibility and spatial congruence…as long as you don't look too closely |
| Q34665523 | Parametric manipulation of the conflict signal and control-state adaptation |
| Q36934306 | Perceiving object affordances through visual and linguistic pathways: A comparative study |
| Q47439878 | Post-conflict slowing after incongruent stimuli: from general to conflict-specific |
| Q48153146 | Post-conflict slowing: cognitive adaptation after conflict processing |
| Q35319191 | Practice explains abolished behavioural adaptation after human dorsal anterior cingulate cortex lesions |
| Q48312890 | Precueing imminent conflict does not override sequence-dependent interference adaptation |
| Q80542395 | Prefrontal dysfunction in first-degree relatives of schizophrenia patients during a Stroop task |
| Q36449661 | Prenatal Nicotine Exposure Impairs Executive Control Signals in Medial Prefrontal Cortex |
| Q33811087 | Preparatory allocation of attention and adjustments in conflict processing. |
| Q36051341 | Priming of control: implicit contextual cuing of top-down attentional set. |
| Q36881882 | Pupil dilation in the Simon task as a marker of conflict processing. |
| Q52031807 | Quantitative relation between conflict and response inhibition in the Flanker task. |
| Q38074631 | Questioning conflict adaptation: proportion congruent and Gratton effects reconsidered. |
| Q38885717 | Reach tracking reveals dissociable processes underlying cognitive control |
| Q48294668 | Reach tracking reveals dissociable processes underlying inhibitory control in 5- to 10-year-olds and adults |
| Q92711990 | Reclaiming the Stroop Effect Back From Control to Input-Driven Attention and Perception |
| Q42970584 | Reconciling the influence of task-set switching and motor inhibition processes on stop signal after-effects |
| Q87354130 | Repetition or alternation of context influences sequential congruency effect depending on the presence of contingency |
| Q41809792 | Resolved but not forgotten: Stroop conflict dredges up the past |
| Q48418567 | Resolving emotional conflict: a role for the rostral anterior cingulate cortex in modulating activity in the amygdala |
| Q35552877 | Reward and punishment effects on error processing and conflict control |
| Q35218876 | Reward reduces conflict by enhancing attentional control and biasing visual cortical processing |
| Q36809036 | Right ventrolateral prefrontal cortex mediates individual differences in conflict-driven cognitive control |
| Q33706050 | Routes of motivation: stable psychological dispositions are associated with dynamic changes in cortico-cortical functional connectivity |
| Q50455817 | Selective attention and recognition: effects of congruency on episodic learning |
| Q42089730 | Self-Generated or Cue-Induced-Different Kinds of Expectations to Be Considered |
| Q33858219 | Sequential Modulations in a Combined Horizontal and Vertical Simon Task: Is There ERP Evidence for Feature Integration Effects? |
| Q48125226 | Sequential congruency effects: disentangling priming and conflict adaptation |
| Q45345511 | Sequential dependencies in the Eriksen flanker task: a direct comparison of two competing accounts |
| Q48299138 | Sequential modulation of (bottom-up) response activation and inhibition in a response conflict task: a single-pulse transcranial magnetic stimulation study |
| Q34510519 | Sequential modulation of distractor-interference produced by semantic generalization of stimulus features |
| Q83922564 | Sequential modulations of correspondence effects across spatial dimensions and tasks |
| Q42778466 | Sequential modulations of the Simon effect depend on episodic retrieval. |
| Q33732586 | Serotonin transporter genotype and action monitoring dysfunction: a possible substrate underlying increased vulnerability to depression |
| Q87163180 | Shifts in target modality cause attentional reset: Evidence from sequential modulation of crossmodal congruency effects |
| Q50132555 | Single Neurons in Anterior Cingulate Cortex Signal the Need to Change Action During Performance of a Stop-change Task that Induces Response Competition. |
| Q36952495 | Speed and Lateral Inhibition of Stimulus Processing Contribute to Individual Differences in Stroop-Task Performance |
| Q47377438 | Stimulation of Dorsolateral Prefrontal Cortex Enhances Adaptive Cognitive Control: A High-Definition Transcranial Direct Current Stimulation Study. |
| Q48402319 | Stimulus conflict predicts conflict adaptation in a numerical flanker task |
| Q49077533 | Stimulus- and response-conflict-induced cognitive control in the flanker task |
| Q46954972 | Strategic behavior without awareness? Effects of implicit learning in the Eriksen flanker paradigm |
| Q37444227 | Subjective aspects of cognitive control at different stages of processing |
| Q35572033 | Suppressing a motivationally-triggered action tendency engages a response control mechanism that prevents future provocation |
| Q35661300 | Synchrony of corticostriatal-midbrain activation enables normal inhibitory control and conflict processing in recovering alcoholic men. |
| Q35381629 | Task feedback effects on conflict monitoring and executive control: relationship to subclinical measures of depression |
| Q89531505 | Temporal Dynamics of Memory-guided Cognitive Control and Generalization of Control via Overlapping Associative Memories |
| Q47901888 | Temporal dynamics of reactive cognitive control as revealed by event-related brain potentials |
| Q30218462 | Temporal learning and list-level proportion congruency: conflict adaptation or learning when to respond? |
| Q101473186 | The Backward Crosstalk Effect Does Not Depend on the Degree of a Preceding Response Conflict |
| Q41073072 | The Correlation among Neural Dynamic Processing of Conflict Control, Testosterone and Cortisol Levels in 10-Year-Old Children |
| Q37382340 | The Effect of Aging on the Dynamics of Reactive and Proactive Cognitive Control of Response Interference |
| Q41899921 | The Gratton effect remains after controlling for contingencies and stimulus repetitions |
| Q50781225 | The Influence of Social and Nonsocial Variables on the Simon Effect. |
| Q90745374 | The Weakened Relationship Between Prestimulus Alpha Oscillations and Response Time in Older Adults With Mild Cognitive Impairment |
| Q47445258 | The association between aerobic fitness and congruency sequence effects in preadolescent children |
| Q83469264 | The bivalency effect: adjustment of cognitive control without response set priming |
| Q48454030 | The conflict adaptation effect: it's not just priming |
| Q30427621 | The congruency sequence effect 3.0: a critical test of conflict adaptation. |
| Q36497688 | The development of stimulus and response interference control in midchildhood |
| Q30434935 | The effect of Parkinson's disease on the dynamics of on-line and proactive cognitive control during action selection |
| Q89522377 | The effects of induced and trait anxiety on the sequential modulation of emotional conflict |
| Q41916635 | The elusive link between conflict and conflict adaptation. |
| Q37387926 | The essence of conscious conflict: subjective effects of sustaining incompatible intentions |
| Q39145044 | The essential role of primate orbitofrontal cortex in conflict-induced executive control adjustment |
| Q92597067 | The face of control: Corrugator supercilii tracks aversive conflict signals in the service of adaptive cognitive control |
| Q26824223 | The heterogeneous world of congruency sequence effects: an update |
| Q35124157 | The influence of negative stimulus features on conflict adaption: evidence from fluency of processing |
| Q48149824 | The influence of response conflict on voluntary task switching: a novel test of the conflict monitoring model |
| Q47420979 | The interaction between emotion and executive control: Comparison between visual, auditory, and tactile modalities. |
| Q36572342 | The neural correlates of emotion-based cognitive control in adults with early childhood behavioral inhibition |
| Q34612627 | The neural dynamics of conflict adaptation within a look-to-do transition |
| Q39142117 | The organization and dynamics of corticostriatal pathways link the medial orbitofrontal cortex to future behavioral responses. |
| Q24628174 | The role of consciousness in cognitive control and decision making |
| Q33565599 | The role of temporal predictability for early attentional adjustments after conflict |
| Q30414754 | The self in conflict: actors and agency in the mediated sequential Simon task |
| Q48238801 | The test of both worlds: identifying feature binding and control processes in congruency sequence tasks by means of action dynamics. |
| Q59281256 | The time course of within and between-language interference in bilinguals |
| Q35510989 | Threat of bodily harm has opposing effects on cognition |
| Q38406703 | Top-down and bottom-up sequential modulations of congruency effects |
| Q48186813 | Trait anxiety and dynamic adjustments in conflict processing |
| Q34582657 | Transferring control demands across incidental learning tasks - stronger sequence usage in serial reaction task after shortcut option in letter string checking |
| Q47763906 | Trauma exposure is associated with increased context-dependent adjustments of cognitive control in patients with posttraumatic stress disorder and healthy controls |
| Q48352051 | Trial by trial effects in the antisaccade task |
| Q34326540 | Trial history effects in stroop task performance are independent of top-down control |
| Q21129116 | Trial-by-Trial Adjustments of Cognitive Control Following Errors and Response Conflict are Altered in Pediatric Obsessive Compulsive Disorder |
| Q38417249 | Trial-by-trial adjustments in control triggered by incidentally encoded semantic cues |
| Q36709558 | Trial-by-trial adjustments of top-down set modulate oculomotor capture |
| Q46029906 | Two Independent Frontal Midline Theta Oscillations during Conflict Detection and Adaptation in a Simon-Type Manual Reaching Task. |
| Q34977286 | Two mechanisms for task switching in the prefrontal cortex. |
| Q30495066 | Unconscious inhibition separates two forms of cognitive control |
| Q33633915 | Unconsciously triggered conflict adaptation |
| Q41725555 | Uncovering the interaction between empathetic pain and cognition |
| Q33450693 | Unstable prefrontal response to emotional conflict and activation of lower limbic structures and brainstem in remitted panic disorder |
| Q58084988 | Useful distracting information: ERP correlates of distractors in stimulus-response-episodes |
| Q48117123 | Variation in working memory capacity and cognitive control: goal maintenance and microadjustments of control |
| Q38907774 | Visual versus auditory Simon effect: a behavioural and physiological investigation |
| Q34306095 | What determines the specificity of conflict adaptation? A review, critical analysis, and proposed synthesis |
| Q36958875 | When moving faces activate the house area: an fMRI study of object-file retrieval |
| Q21129159 | When the ignored gets bound: sequential effects in the flanker task |
| Q50060739 | Working memory capacity and intra-individual variability of proactive control |
| Q50963359 | Working memory demands modulate cognitive control in the Stroop paradigm. |