Takahashi, R., Takayama, Y., & Yotsumoto, Y. (2025)
Effect of Temporal Modulation of Tactile Stimulus on Time Perception
Timing & Time Perception (published online ahead of print 2025).
Kido, T., Yotsumoto, Y., & Hayashi, M. J. (2025)
Hierarchical representations of relative numerical magnitudes in the human frontoparietal cortex
Nature Communications, 16(1), 419.
Harada, T., Kamachi, M. G., & Yotsumoto, Y. (2025)
An identity-irrelevant discrimination task reveals familiarity-advantage in face perception and no self-advantage in voice perception
Acta Psychologica, 247, 104317.
Harada, T., Mioni, G., Cellini, N. & Yotsumoto, Y. (2024)
No significant relationship found between spontaneous motor tempo, heartbeat, and individual alpha frequency: an analysis of internal tempos
Scientific Reports, 15, 2310.
Houshmand Chatroudi, A., Mioni, G. & Yotsumoto, Y. (2024)
On the nonlinearity of the foreperiod effect
Scientific Reports, 14(1), 2780.
Otsuka, T., Yotsumoto, Y., & Mioni, G. (2023)
Explicit Timing Differently Predicts Implicit Timing Performance in Younger and Older Adults
Timing & Time Perception.
Otsuka, T., & Yotsumoto, Y. (2023)
Near-optimal integration of the magnitude information of time and numerosity
Royal Society Open Science, 10(8), 230153.
Gallego Hiroyasu, E.M., Laje, R., & Nomura, K. et al. (2023)
Longitudinal analysis of social isolation effects on finger tapping in the Blursday database
Scientific Reports, 13, 9824.
Houshmand Chatroudi, A., & Yotsumoto, Y. (2023)
No evidence for the effect of entrainment's phase on duration reproduction and precision of regular intervals
European Journal of Neuroscience, 58(4), 3037–3057.
Chaumon, M., et al. (2022)
The Blursday database as a resource to study subjective temporalities during COVID-19
Nature Human Behavior, 6(11), 1587–1599.
Li, L., Yotsumoto, Y., & Hayashi MJ. (2022)
Temporal perceptual learning distinguishes between empty and filled intervals
Scientific Reports, 12(1), 9824.
Yoshimatsu, H. Murai, Y. & Yotsumoto, Y. (2022)
Effect of luminance signal and perceived speed on motion-related duration distortions.
Vision Research, 198, 108070.
Otsuka, T., & Yotsumoto, Y. (2022)
Partially Separable Aspects of Spatial and Temporal Estimations in Virtual Navigation as Revealed by Adaptation.
i-Perception, 13(1).
Takahashi K., & Yotsumoto Y. (2022)
Testing the Reproducibility of the Effects of Transcranial Direct Current Stimulation: Failure to Modulate Beauty Perception by Brain Stimulation
Frontiers in Human Neuroscience, 16, 767344.
杉山 翔吾・廣康 衣里紗 まり・野村 圭史・林 正道・四本 裕子(2021)
外出規制が孤独感・不安・抑うつに及ぼす影響――日本在住者を対象とした縦断的研究――
心理学研究, 92(5), 397-407.
Yoshimatsu H., & Yotsumoto, Y. (2021)
“Weighted integration of duration information across visual and auditory modality is influenced by modality-specific attention”,
Frontiers in Human Neuroscience, 15, 725449.
Gallego-Hiroyasu, E. M., & Yotsumoto, Y. (2021)
Disentangling the effects of modality, interval length and task difficulty on the accuracy and precision of older adults in a rhythmic reproduction task
PLOS ONE, 16(3), e0248295.
Chatroudi, A. H., Rostami, R., Nasrabadi, A. M., & Yotsumoto, Y. (2021)
Effect of inhibition indexed by auditory P300 on transmission of visual sensory information
PLOS ONE, 16(2), e0247416.
Hosaka, T., Kimura, M., & Yotsumoto, Y. (2021)
Neural representations of own-voice in the human auditory cortex
Scientific Reports, 11, 591.
Kawahara, H., & Yotsumoto, Y. (2020)
Multiple irrelevant duration information affects the perception of relevant duration information: Interference with selective processing of duration.
i-Perception, 11(6).
Gallego-Hiroyasu, E. M., & Yotsumoto, Y. (2020)
Older adults preserve accuracy but not precision in explicit and implicit rhythmic timing.
PlOS ONE, 15(10), e0240863.
Li, L., Ito, S., & Yotsumoto, Y. (2020)
Effect of change saliency and neural entrainment on flicker-induced time dilation.
Journal of Vision, 20(6), 15.
四本裕子 (2018)
分離脳患者の時間知覚
BRAIN and NERVE, 70(11), 1165–1172.
Murai Y., & Yotsumoto Y. (2018)
Optimal Multisensory Integration Leads to Optimal Time Estimation
Scientific Reports, 8, 13068.
Fan Z. & Yotsumoto Y. (2018)
Multiple Time Intervals of Visual Events Are Represented as Discrete Items in Working Memory
Frontiers in Psychology, 9, 1340.
Niwano Y., Akao A., Yotsumoto Y., Jimbo Y. & Kotani K. (2018)
A Quantitative Comparison of Hemoglobin Concentration and BOLD Signal using Time-Resolved Near-Infrated Spectroscopy
IEEJ Transactions on Electrical and Electronic Engineering, 138(7), 790-798.
Kimura M. & Yotsumoto Y. (2018)
Auditory traits of "own voice"
PLOS ONE, 13(6), e0199443.
Hashimoto Y. & Yotsumoto Y. (2018)
The amount of time dilation for visual flickers corresponds to the amount of neural entrainments measured by EEG
Frontiers in Computational Neuroscience, 12, 30.
Shima, S., Murai, Y., Yuasa, K., Hashimoto, Y. & Yotsumoto, Y. (2018)
Periodic Fluctuation of Perceived Duration
i-Perception. 9(2).
Nomura, K. & Yotsumoto, Y. (2018)
Failure to Replicate the Increased Temporal Resolution Induced by Images That Give Impression of Danger
Japanese Psychological Research, 60(3), 179-187.
Okajima, M., Futamura, A., Honma, M., Kawamura, M., & Yotsumoto, Y. (2017)
Interhemispheric cortical conncections and time perception: A case study with agencies of the corpus callosum
Brain and Cognition, 117, 12-16.
Honma, M., Murai, Y., Shima, S., Yotsumoto, Y., Kuroda, T., Futamura, A., Shiromaru, A., Murakami, I. & Kawamura, M. (2017)
Spatial distortion related to time compression during spatiotemporal production in Parkinson's disease
Neuropsychologia, 102, 61-69.
Tanaka, R. & Yotsumoto, Y. (2017)
Passage of Time Judgments Is Relative to Temporal Expectation
Fronties in Psychology, 8(187).
Okajima, M. & Yotsumoto, Y. (2016)
Flickering task–irrelevant distractors induce dilation of target duration depending upon cortical distance
Scientific Reports, 6, 32432.
Murai, Y. & Yotsumoto, Y. (2016)
Timescale- and Sensory Modality-Dependency of the Central Tendency of Time Perception
PLOS ONE 11(7), e0158921.
Tanaka, R. & Yotsumoto, Y. (2016)
Networks extending across dorsal and ventral visual pathways correlate with trajectory perception
Journal of Vision, 16(6), 21.
Murai, Y., Whitaker, D. & Yotsumoto, Y. (2016)
The centralized and distributed nature of adaptation-induced misjudgments of time
Current Opinion in Behavioral Sciences, 8, 117-123.
Murai, Y. & Yotsumoto, Y. (2016)
Context-Dependent Neural Modulations in the Perception of Duration
Frontiers in Integrative Neuroscience, 10(12).
Shima, S., Murai, Y., Hashimoto, Y. & Yotsumoto, Y. (2016)
Duration adaptation occurs across the sub- and supra-second systems
Frontiers in Psychology, 7(114).
Yuasa, K. & Yotsumoto, Y. (2015)
Opposite Distortions in Interval Timing Perception for Visual and Auditory Stimuli with Temporal Modulations
PLOS ONE, 10(8).
Hashimoto, Y. & Yotsumoto, Y. (2015)
Effect of Temporal Frequency Spectra of Flicker on Time Perception: Behavioral Testing and Simulations Using a Striatal Beat-Frequency Model
Timing & Time Perception, 3(3-4), 201-222.
Chang, LH., Yotsumoto Y., Salat DH., Andersen GJ., Watanabe T., & Sasaki, Y. (2015)
Reduction in the retinotopic early visual cortex with normal aging and magnitude of perceptual learning.
Neurobiology of Aging, 36(1), 315-322.
Yotsumoto, Y., Chang, LH., Ni, R., Pierce, R., Andersen, GJ., Watanabe, T., & Sasaki, Y. (2014)
White matter in the older brain is more plastic than the younger brain.
Nature Communications, 5, 5504.
Tamaki M, Huang TR, Yotsumoto Y, Hämäläinen M, Lin FH, Náñez JE Sr, Watanabe T, Sasaki Y. (2013)
Enhanced spontaneous oscillations in the supplementary motor area are associated with sleep-dependent offline learning of finger-tapping motor-sequence task.
The Journal of Neuroscience, 33(34), 13894-13902.
Yotsumoto Y, Watanabe T, Chang LH, Sasaki Y.(2013)
Consolidated learning can be susceptible to gradually-developing interference in prolonged motor learning
Frontiers in Computational Neuroscience, 7(69).
Kuwahara M., Sato T., & Yotsumoto Y (2012)
Wriggling Motion Trajectory Illusion.
Journal of Vision, 8(12).
Yotsumoto Y, Seitz AR, Shimojo S, Sakagami M, Watanabe T, Sasaki Y.(2012)
Performance Dip in motor response induced by task-irrelevant weaker coherent visual motion signals.
Cerebral Cortex, 22(8), 1887-1893.
Yotsumoto Y.(2012)
Why we should integrate behavioral and neuroimaging studies to examine neural plasticity in perceptual learning.
Cortex, 48(4), 517-518.
Yotsumoto Y., Chang L., Watanabe T. & Sasaki Y.(2009)
Interference and feature specificity in visual perceptual learning.
Vision Research, 49(21), 2611-23.
Yotsumoto Y., Sasaki Y., Chan P., Vasios CE., Bonmassar G., Ito N., Nanez J., Shimojo S. & Watanabe T (2009)
Location-specific cortical activation changes during sleep after training for perceptual learning.
Current Biology, 19(15), 1278-82.
Yotsumoto Y.(2008)
Defining a link between perceptual learning and attention.
PLoS Biology, 6(8), e221.
Yotsumoto, Y., Watanabe, T., & Sasaki, Y. (2008)
Different dynamics of performance and brain activation in the time course of perceptual learning.
Neuron, 57(6), 827-33.
Yotsumoto, Y., Kahana MJ., McLaughlin C., & Sekuler R. (2008)
Recognition and position information in working memory for visual textures.
Memory & Cognition, 36(2), 282-294.
Sekuler R., McLaughlin C., & Yotsumoto Y. (2008)
Age-related changes in attentional tracking of multiple moving objects.
Perception, 37(6), 867-876.
Yotsumoto Y., Kahana MJ., Wilson HR., & Sekuler R. (2007)
Recognition memory for realistic synthetic faces.
Memory & Cognition, 35(6), 1233-44.
Sekuler R., McLaughlin C., Kahana MJ., Wingfield A., & Yotsumoto Y. (2006)
Short-term visual recognition and temporal order memory are both well-preserved in aging.
Psychology and Aging, 21(3), 632-637.
Yotsumoto Y., Sekuler R. (2006)
Out of mind, but not out of sight: intentional control of visual memory.
Memory & Cognition, 34(4), 776-86.