Time is a fundamental dimension of everyday experiences. We can unmistakably sense its passage and adjust our behavior accordingly. Despite its ubiquity, the neuronal mechanisms underlying the capacity to perceive time remains unclear. Here, in two experiments using ultrahigh-field 7-Tesla (7T) functional magnetic resonance imaging (fMRI), we show that in the medial premotor cortex (supplementary motor area [SMA]) of the human brain, neural units tuned to different durations are orderly mapped in contiguous portions of the cortical surface so as to form chronomaps. The response of each portion in a chronomap is enhanced by neighboring durations and suppressed by nonpreferred durations represented in distant portions of the map. These findin...
Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. This abili...
A voluntary motor act, executed in response to a stimulus, requires both spatial and temporal comput...
Precise time estimation is crucial in perception, action and social interaction. Previous neuroimagi...
Time is a fundamental dimension of everyday experiences. We can unmistakably sense its passage and a...
Time is a fundamental dimension of everyday experiences. We can unmistakably sense its passage and a...
Abstract: In this study, long (1,300 ms) and short duration (450 ms) estimation trials in an event-r...
In this study, long ( approximately 1,300 ms) and short duration ( approximately 450 ms) estimation ...
Abstract How the human brain represents millisecond unit of time is far from clear. A recent neuroim...
In everyday life, temporal information is used for both perception and action, but whether these two...
fMRI results, individual data of Exp 1 (A) and Exp 2 (B). (A) For two subjects of Exp 1 we show the ...
A dominant tendency in cerebral studies has been the attempt to locate architecturally distinct part...
We all have a sense of time. Yet, there are no sensory receptors specifically dedicated for perceivi...
Though it is well known that humans perceive the temporal features of the environment incessantly, t...
Summary: Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. T...
Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. This abili...
A voluntary motor act, executed in response to a stimulus, requires both spatial and temporal comput...
Precise time estimation is crucial in perception, action and social interaction. Previous neuroimagi...
Time is a fundamental dimension of everyday experiences. We can unmistakably sense its passage and a...
Time is a fundamental dimension of everyday experiences. We can unmistakably sense its passage and a...
Abstract: In this study, long (1,300 ms) and short duration (450 ms) estimation trials in an event-r...
In this study, long ( approximately 1,300 ms) and short duration ( approximately 450 ms) estimation ...
Abstract How the human brain represents millisecond unit of time is far from clear. A recent neuroim...
In everyday life, temporal information is used for both perception and action, but whether these two...
fMRI results, individual data of Exp 1 (A) and Exp 2 (B). (A) For two subjects of Exp 1 we show the ...
A dominant tendency in cerebral studies has been the attempt to locate architecturally distinct part...
We all have a sense of time. Yet, there are no sensory receptors specifically dedicated for perceivi...
Though it is well known that humans perceive the temporal features of the environment incessantly, t...
Summary: Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. T...
Accurately timing sub-second sensory events is crucial when perceiving our dynamic world. This abili...
A voluntary motor act, executed in response to a stimulus, requires both spatial and temporal comput...
Precise time estimation is crucial in perception, action and social interaction. Previous neuroimagi...