Publications
Preprints
Yang, J., Saionz, E., Cavanaugh, M., Fahrenthold, B., Melnick, M., Tadin, D., Briggs, F., Carrasco, M., and Huxlin, K. (medRxiv preprint)
Contrast sensitivity: a fundamental limit to vision restoration after V1 damage.
Szpiro S, Burlingham CS, Simoncelli E & Carrasco M (bioRxiv preprint)
Perceptual learning improves discrimination while distorting appearance
bioRxiv
Denison RN, Tian K, Heeger DJ & Carrasco M
Dynamics of temporal attention and expectation revealed by continuous tracking of visual cortical responses
bioRxiv
2023
Xue, S.T., Fernández, A. and Carrasco, M. (in press, Journal of Neuroscience)
Featural representation and internal noise underlie the eccentricity effect in contrast sensitivity
Hung, S.C., Barbot, A., and Carrasco, M. (in press, Scientific Reports)
Visual perceptual learning modulates microsaccade rate and directionality.
Hanning, N.M., Himmelberg, M.M. and Carrasco, M. (in press, J Neuroscience)
Presaccadic attention depends on eye movement direction and is related to V1 cortical magnification
Hanning, N.M., Fernández, A. and Carrasco, M. (Nature Communications)
Dissociable roles of human frontal eye fields and early visual cortex in presaccadic attention—evidence from TMS
Palmieri, H., Fernández, A. & Carrasco M. (2023)
Microsaccades and temporal attention at different locations of the visual field
Journal of Vision
Himmelberg, M.M., Winawer, J. & Carrasco M. (2023)
Polar angle asymmetries in visual perception and neural architecture
Trends in Neurosciences
Jigo M., Tavdy D., Himmelberg, M.M. & Carrasco M. (2023)
Cortical magnification eliminates differences in contrast sensitivity across but not around the visual field.
eLife
Ezzo, R., Winawer, J., Carrasco, M., and Rokers, B. (2023).
Asymmetries in the discrimination of motion direction around the visual field
Journal of Vision
Duyar, A., Denison, R. and Carrasco, M. (2023).
Exogenous temporal attention varies with temporal uncertainty
Journal of Vision
Kwak Y., Hanning N.M., & Carrasco M. (2023).
Presaccadic attention sharpens visual acuity.
Scientific Reports
Fernández, A., Hanning N.M., & Carrasco M. (2023).
Transcranial magnetic stimulation to frontal but not occipital cortex disrupts endogenous attention
Proceedings of the National Academy of Sciences
Himmelberg, M.M., Tünçok, E., Gomez, J., Grill-Spector, K., Carrasco, M.* & Winawer, J.* (2023)
Comparing retinotopic maps of children and adults reveals a late-stage change in how V1 samples the visual field
Nature Communications, 14, 1561