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
Learn more about PhilPapers
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).
|Keywords||No keywords specified (fix it)|
|Categories||categorize this paper)|
Setup an account with your affiliations in order to access resources via your University's proxy server
Configure custom proxy (use this if your affiliation does not provide a proxy)
|Through your library|
References found in this work BETA
No references found.
Citations of this work BETA
Joaquín M. Fuster & Steven L. Bressler (2012). Cognit Activation: A Mechanism Enabling Temporal Integration in Working Memory. Trends in Cognitive Sciences 16 (4):207.
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.
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.
Similar books and articles
Wolfgang Klimesch & Bärbel Schack (2003). Activation of Long-Term Memory by Alpha Oscillations in a Working-Memory Task? Behavioral and Brain Sciences 26 (6):743-743.
Emrah Düzel (2003). Some Mechanisms of Working Memory May Not Be Evident in the Human EEG. Behavioral and Brain Sciences 26 (6):732-732.
Joaquín M. Fuster (2003). More Than Working Memory Rides on Long-Term Memory. Behavioral and Brain Sciences 26 (6):737-737.
Daniel S. Ruchkin, Jordan Grafman, Katherine Cameron & Rita S. Berndt (2003). Working Memory Retention Systems: A State of Activated Long-Term Memory. Behavioral and Brain Sciences 26 (6):709-728.
Ole Jensen & John E. Lisman (2001). Dual Oscillations as the Physiological Basis for Capacity Limits. Behavioral and Brain Sciences 24 (1):126-126.
J. B. Newman & A. A. Grace (1999). Binding Across Time: The Selective Gating of Frontal and Hippocampal Systems Modulating Working Memory and Attentional States. Consciousness and Cognition 8 (2):196-212.
Janice M. Keenan, Jukka Hyönä & Johanna K. Kaakinen (2003). Incorporating Semantics and Individual Differences in Models of Working Memory. Behavioral and Brain Sciences 26 (6):742-742.
Robert H. Logie & Sergio Della Sala (2003). Working Memory as a Mental Workspace: Why Activated Long-Term Memory is Not Enough. Behavioral and Brain Sciences 26 (6):745-746.
James K. Kroger (2003). Long-Term Memories, Features, and Novelty. Behavioral and Brain Sciences 26 (6):744-745.
Henry Markovits, Celine Doyon & Michael Simoneau (2002). Individual Differences in Working Memory and Conditional Reasoning with Concrete and Abstract Content. Thinking and Reasoning 8 (2):97 – 107.
Gabriele Gratton, Monica Fabiani & Paul M. Corballis (2001). Working Memory Capacity and the Hemispheric Organization of the Brain. Behavioral and Brain Sciences 24 (1):121-122.
Jackie Andrade (2001). The Contribution of Working Memory to Conscious Experience. In , Working Memory in Perspective. Psychology Press. 60-78.
Naoyuki Osaka, Robert H. Logie & Mark D'Esposito (eds.) (2007). The Cognitive Neuroscience of Working Memory. OUP Oxford.
William A. Phillips (2003). The Short-Term Dynamics Within a Network of Connections is Creative. Behavioral and Brain Sciences 26 (6):752-753.
Added to index2010-12-22
Total downloads4 ( #247,771 of 1,096,879 )
Recent downloads (6 months)1 ( #273,368 of 1,096,879 )
How can I increase my downloads?