Pupils respond to three distinct kinds of stimuli: they constrict in response to brightness (the pupil light response), constrict in response to near fixation (the pupil near response), and dilate in response to increases in arousal and mental effort, either triggered by an external stimulus or spontaneously. In this review, I describe these three pupil responses, how they are related to high-level cognition, and the neural pathways that control them. I also discuss the functional relevance of pupil responses, that is, how pupil responses help us to better see the world. Although pupil responses likely serve many functions, not all of which are fully understood, one important function is to optimize vision either for acuity (small pupils se...
SummaryRecent studies provide promising methodological advances in the use of pupillometry as on-lin...
When the pupil dilates, the amount of light that falls onto the retina increases. However, in daily ...
Changes in pupil diameter can reflect high-level cognitive signals that depend on central neuromodul...
Pupils respond to three distinct kinds of stimuli: they constrict in response to brightness (the pup...
Pupils respond to three distinct kinds of stimuli: they constrict in response to brightness (the pup...
The pupil responds reflexively to changes in brightness and focal distance to maintain the smallest ...
Over 50 years of research have established that cognitive processes influence pupil size. This has l...
Although retinal illumination is the main determinant of pupil size, evidence indicates that extra-r...
The course of pupillary constriction and dilation provides an easy-to-access, inexpensive, and nonin...
Although retinal illumination is the main determinant of pupil size, evidence indicates that extra-r...
The pupil responds reflexively to changes in brightness and focal distance to maintain the smallest ...
Purpose: To investigate the pupillary response to moving stimuli of different speeds and the influen...
International audienceThe eye's pupils constrict (shrink) in brightness and dilate (expand) in darkn...
TICS-1381; No. of Pages 3circuits are not the only contributors to pupil control. Specifically, pupi...
The eye’s pupils constrict (shrink) in brightness and dilate (expand) in darkness. The pupillary lig...
SummaryRecent studies provide promising methodological advances in the use of pupillometry as on-lin...
When the pupil dilates, the amount of light that falls onto the retina increases. However, in daily ...
Changes in pupil diameter can reflect high-level cognitive signals that depend on central neuromodul...
Pupils respond to three distinct kinds of stimuli: they constrict in response to brightness (the pup...
Pupils respond to three distinct kinds of stimuli: they constrict in response to brightness (the pup...
The pupil responds reflexively to changes in brightness and focal distance to maintain the smallest ...
Over 50 years of research have established that cognitive processes influence pupil size. This has l...
Although retinal illumination is the main determinant of pupil size, evidence indicates that extra-r...
The course of pupillary constriction and dilation provides an easy-to-access, inexpensive, and nonin...
Although retinal illumination is the main determinant of pupil size, evidence indicates that extra-r...
The pupil responds reflexively to changes in brightness and focal distance to maintain the smallest ...
Purpose: To investigate the pupillary response to moving stimuli of different speeds and the influen...
International audienceThe eye's pupils constrict (shrink) in brightness and dilate (expand) in darkn...
TICS-1381; No. of Pages 3circuits are not the only contributors to pupil control. Specifically, pupi...
The eye’s pupils constrict (shrink) in brightness and dilate (expand) in darkness. The pupillary lig...
SummaryRecent studies provide promising methodological advances in the use of pupillometry as on-lin...
When the pupil dilates, the amount of light that falls onto the retina increases. However, in daily ...
Changes in pupil diameter can reflect high-level cognitive signals that depend on central neuromodul...