Postdoctoral Research Fellow
Room 401 Henry Wellcome
Telephone: 0207 631 6522
E-mail: t.katus@bbk.ac.uk
Publications
Katus, T. & Eimer, M. (inpress). The N2cc component as an electrophysiological marker of space-based and feature-based attentional target selection processes in touch. Psychophysiology
Katus, T. & Eimer, M. (inpress). Shifts of spatial attention in visual and tactile working memory are controlled by independent modality-specific mechanisms. Cerebral Cortex.
Katus, T. & Eimer, M. (2019). Independent attention mechanisms control the activation of tactile and visual working memory representations. Journal of Cognitive Neuroscience, 31, 175-185.
McCants, C., Katus, T. & Eimer, M. (2019). The capacity and resolution of spatial working memory and its role in the storage of non-spatial features. Biological Psychology, 140, 108-118.
Katus, T. & Eimer, M. (2018). Independent attention mechanisms control the activation of tactile and visual working memory representations. Journal of Cognitive Neuroscience, 30, 644-655.
Katus, T., Grubert, A., & Eimer, M. (2017). Intermodal attention shifts in multimodal working memory. Journal of Cognitive Neuroscience, 29, 628-636.
Katus, T., & Eimer, M. (2016). Multiple foci of spatial attention in multimodal working memory. NeuroImage, 142, 583-589.
Katus, T., & Eimer, M. (2015). Lateralized delay period activity marks the focus of spatial attention in working memory: Evidence from somatosensory event-related brain potentials. Journal of Neuroscience, 35, 6689-6695.
Katus, T., Grubert, A., & Eimer, M. (2015). Electrophysiological evidence for a sensory recruitment model of somatosensory working memory. Cerebral Cortex, 25, 4697–4703, doi:10.1093/cercor/bhu153
Katus, T., Müller, M.M., & Eimer, M. (2015). Sustained maintenance of somatotopic information in brain regions recruited by tactile working memory. Journal of Neuroscience, 35, 1390-1395.
