scholarly article | Q13442814 |
P356 | DOI | 10.1523/JNEUROSCI.0911-09.2009 |
P8608 | Fatcat ID | release_hn3d5ivtwbcwzgqmoz2c2m527q |
P932 | PMC publication ID | 6666125 |
P698 | PubMed publication ID | 19793991 |
P50 | author | Reinhold Kliegl | Q1300738 |
Werner Sommer | Q88097049 | ||
Matteo Valsecchi | Q88168812 | ||
Olaf Dimigen | Q48186968 | ||
P2860 | cites work | Microsaccadic eye movements and firing of single cells in the striate cortex of macaque monkeys | Q28145775 |
Dynamic brain sources of visual evoked responses | Q28216590 | ||
Vision with a stabilized retinal image | Q28244787 | ||
The role of fixational eye movements in visual perception | Q28246122 | ||
Microsaccade dynamics during covert attention. | Q52971708 | ||
Fixational eye movements predict the perceived direction of ambiguous apparent motion. | Q53050479 | ||
Microsaccadic inhibition and P300 enhancement in a visual oddball task | Q57398509 | ||
Dipole models of eye movements and blinks | Q67695796 | ||
Are eye movement evoked potentials different from pattern reversal evoked potentials? | Q68534773 | ||
Topography of scalp potentials preceding self-initiated saccades | Q68742135 | ||
Binocular micromovements in normal persons | Q70734727 | ||
Small saccades serve no useful purpose: reply to a letter by R. W. Ditchburn | Q71226926 | ||
The Freiburg Visual Acuity test--automatic measurement of visual acuity | Q71677253 | ||
Voluntary control of microsaccades during maintained monocular fixation | Q72210307 | ||
[Electrophysiological study on "flick" eye movements during fixation] | Q72303522 | ||
Variation of spontaneous ocular and occipital responses with stimulus patterns | Q72372737 | ||
Guideline thirteen: guidelines for standard electrode position nomenclature. American Electroencephalographic Society | Q72467422 | ||
Microsaccades and the Velocity-Amplitude Relationship for Saccadic Eye Movements | Q72626673 | ||
The influence of fixational eye movements on the response of neurons in area MT of the macaque | Q74819661 | ||
The coincidence between late non-phase-locked gamma synchronization response and saccadic eye movements | Q76318352 | ||
Two-Dimensional Motion of the Retinal Image during Monocular Fixation* | Q78844490 | ||
Microsaccadic responses in a bimodal oddball task | Q80820381 | ||
Effects of fixation instability on multifocal VEP (mfVEP) responses in amblyopes | Q81290685 | ||
Microsaccades counteract perceptual filling-in | Q28306816 | ||
EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis | Q29547481 | ||
Microsaccades drive illusory motion in the Enigma illusion | Q30484235 | ||
The effect of microsaccades on the correlation between neural activity and behavior in middle temporal, ventral intraparietal, and lateral intraparietal areas | Q33998593 | ||
The function of bursts of spikes during visual fixation in the awake primate lateral geniculate nucleus and primary visual cortex | Q34162251 | ||
Microsaccades uncover the orientation of covert attention | Q34188376 | ||
On quantifying surprise: the variation of event-related potentials with subjective probability | Q34418432 | ||
Microsaccades are triggered by low retinal image slip | Q34598718 | ||
Transient induced gamma-band response in EEG as a manifestation of miniature saccades | Q34777458 | ||
The brainstem control of saccadic eye movements | Q35014020 | ||
Disentangling gaze shifts from preparatory ERP effects during spatial attention | Q35652671 | ||
Studies of human visual pathophysiology with visual evoked potentials | Q36413552 | ||
Fixational eye movements in normal and pathological vision | Q36607892 | ||
Electrophysiological correlates of presaccadic remapping in humans. | Q40086016 | ||
AVERAGED BRAIN ACTIVITY FOLLOWING SACCADIC EYE MOVEMENT. | Q44156506 | ||
Saccadic eye movements modulate visual responses in the lateral geniculate nucleus | Q44173667 | ||
Microsaccades as an overt measure of covert attention shifts. | Q44225504 | ||
Presaccadic spike potential. Relation to eye movement direction | Q45194207 | ||
TMS over the intraparietal sulcus induces perceptual fading | Q46314921 | ||
Microsaccades counteract visual fading during fixation. | Q46901797 | ||
Microsaccadic response to visual events that are invisible to the superior colliculus | Q48090668 | ||
Integrated effect of stimulation at fixation points on EFRP (eye-fixation related brain potentials). | Q48142635 | ||
Spatio-temporal brain dynamics underlying saccade execution, suppression, and error-related feedback | Q48254743 | ||
Comparison between the lambda response of eye-fixation-related potentials and the P100 component of pattern-reversal visual evoked potentials | Q48272451 | ||
Microsaccades differentially modulate neural activity in the striate and extrastriate visual cortex | Q48324995 | ||
Visual oddballs induce prolonged microsaccadic inhibition | Q48429525 | ||
Attention modulates responses in the human lateral geniculate nucleus | Q48468459 | ||
Relations between the amplitudes of spontaneous saccades and visual responses | Q48526551 | ||
Topography of visually evoked brain activity during eye movements: lambda waves, saccadic suppression, and discrimination performance | Q48680325 | ||
Saccade onset and offset lambda waves: relation to pattern movement visually evoked potentials | Q48707405 | ||
Response variability of neurons in primary visual cortex (V1) of alert monkeys. | Q48728137 | ||
Toward a model of microsaccade generation: the case of microsaccadic inhibition | Q48896627 | ||
Human presaccadic spike potentials. Of central or peripheral origin? | Q48908091 | ||
The appraisal of facial beauty is rapid but not mandatory. | Q49138305 | ||
Identification of the neural sources of the pattern-reversal VEP. | Q49146207 | ||
Stimulus Indicators of Summated Human -Responses | Q51160530 | ||
Retinal image shifts, but not eye movements per se, cause alternations in awareness during binocular rivalry. | Q51908176 | ||
Crossmodal coupling of oculomotor control and spatial attention in vision and audition. | Q51927845 | ||
Are you ready? I can tell by looking at your microsaccades. | Q51939368 | ||
EEG phase synchrony differences across visual perception conditions may depend on recording and analysis methods. | Q51995797 | ||
Shortening and prolongation of saccade latencies following microsaccades. | Q52032402 | ||
Microsaccade orientation supports attentional enhancement opposite a peripheral cue: commentary on Tse, Sheinberg, and Logothetis (2003). | Q52087296 | ||
Frequency limitations of the two-point central difference differentiation algorithm. | Q52728184 | ||
P433 | issue | 39 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 12321-12331 | |
P577 | publication date | 2009-09-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Human microsaccade-related visual brain responses | |
P478 | volume | 29 |
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Q40345406 | Areas V1 and V2 show microsaccade-related 3-4-Hz covariation in gamma power and frequency. |
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Q48252627 | Microsaccades Are Coupled to Heartbeat. |
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Q36555536 | Model predictions of features in microsaccade-related neural responses in a feedforward network with short-term synaptic depression |
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Q35590233 | Modulation of microsaccades in monkey during a covert visual attention task. |
Q37284044 | Neural activity tied to reading predicts individual differences in extended-text comprehension |
Q35850626 | Neural saccadic response estimation during natural viewing |
Q33615920 | Occipital gamma activation during Vipassana meditation |
Q35209523 | Occipital gamma-oscillations modulated during eye movement tasks: simultaneous eye tracking and electrocorticography recording in epileptic patients |
Q57398492 | Oculomotor Control, Brain Potentials, and Timelines of Word Recognition During Natural Reading |
Q41207458 | Oculomotor inhibition covaries with conscious detection. |
Q38405685 | Parafoveal processing in reading Chinese sentences: Evidence from event-related brain potentials |
Q34585851 | Propofol anesthesia and sleep: a high-density EEG study |
Q51910899 | Rare but precious: microsaccades are highly informative about attentional allocation. |
Q50744305 | Repetition priming effects dissociate between miniature eye movements and induced gamma-band responses in the human electroencephalogram. |
Q37339728 | Spatiotemporal properties of microsaccades: Model predictions and experimental tests |
Q48424625 | Steady-state VEP responses to uncomfortable stimuli |
Q36583409 | Synchronization of medial temporal lobe and prefrontal rhythms in human decision making |
Q30850501 | Temporal dynamics of saccades explained by a self-paced process |
Q36048479 | The Impact of Task Demands on Fixation-Related Brain Potentials during Guided Search |
Q36381095 | The fixation and saccade P3. |
Q38074859 | The impact of microsaccades on vision: towards a unified theory of saccadic function. |
Q37683119 | The neurophysiological index of visual working memory maintenance is not due to load dependent eye movements |
Q48355499 | Updating and validating a new framework for restoring and analyzing latency-variable ERP components from single trials with residue iteration decomposition (RIDE). |
Q35793636 | VEP Responses to Op-Art Stimuli |
Q39368823 | Variability in functional brain networks predicts expertise during action observation |
Q48397791 | Visual Discomfort From Flash Afterimages of Riloid Patterns |
Q44194040 | What is the best fixation target? The effect of target shape on stability of fixational eye movements |
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