Phase Locking of Single Neuron Activity to Theta Oscillations during Working Memory in Monkey Extrastriate Visual Cortex
David Bourget (Western Ontario)
David Chalmers (ANU, NYU)
Rafael De Clercq
Jack Alan Reynolds
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Neuron 45:147-156 (2005)
activity” has been considered to play a major role in the short-term maintenance of memories. Many studies since then have provided support for this view and greatly advanced our knowledge of the effects of stimulus type and modality on delay activity and its temporal dynamics (Funahashi et al., 1993; Fuster et al., 2000; Romo et al., 1999). In humans, working memory has also been a subject of intense investigation using scalp and intracranial electroencephalography (EEG, iEEG) as well as magnetoencephalography (MEG), which provide estimates of local population activity. The published findings include reports of systematic changes in signal amplitude during working memory in the theta (Raghavachari et al., 2001; Tesche and <span class='Hi'>Karhu</span>, 2000), alpha (Gevins et al., 1997; Working memory has been linked to elevated single Jensen et al., 2002), beta (Tallon-Baudry et al., 1999).
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Steven J. Luck & Edward K. Vogel (2013). Visual Working Memory Capacity: From Psychophysics and Neurobiology to Individual Differences. Trends in Cognitive Sciences 17 (8):391-400.
Joaquín M. Fuster & Steven L. Bressler (2012). Cognit Activation: A Mechanism Enabling Temporal Integration in Working Memory. Trends in Cognitive Sciences 16 (4):207.
Ariel Zylberberg, Stanislas Dehaene, Pieter R. Roelfsema & Mariano Sigman (2011). The Human Turing Machine: A Neural Framework for Mental Programs. Trends in Cognitive Sciences 15 (7):293-300.
Chantal E. Stern Michael E. Hasselmo (2006). Mechanisms Underlying Working Memory for Novel Information. Trends in Cognitive Sciences 10 (11):487.
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