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A short review of slow phase synchronization and memory: evidence for control processes in different memory systems?

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A short review of slow phase synchronization and memory: evidence for control processes in different memory systems? / Klimesch, Wolfgang; Freunberger, Roman; Sauseng, Paul; Gruber, Walter.

In: BRAIN RES, Vol. 1235, 2008, p. 31-44.

Research output: SCORING: Contribution to journalSCORING: Journal articleResearchpeer-review

Harvard

Klimesch, W, Freunberger, R, Sauseng, P & Gruber, W 2008, 'A short review of slow phase synchronization and memory: evidence for control processes in different memory systems?', BRAIN RES, vol. 1235, pp. 31-44. <http://www.ncbi.nlm.nih.gov/pubmed/18625208?dopt=Citation>

APA

Klimesch, W., Freunberger, R., Sauseng, P., & Gruber, W. (2008). A short review of slow phase synchronization and memory: evidence for control processes in different memory systems? BRAIN RES, 1235, 31-44. http://www.ncbi.nlm.nih.gov/pubmed/18625208?dopt=Citation

Vancouver

Klimesch W, Freunberger R, Sauseng P, Gruber W. A short review of slow phase synchronization and memory: evidence for control processes in different memory systems? BRAIN RES. 2008;1235:31-44.

Bibtex

@article{dab8aa4add7c46df808854079d02fa75,
title = "A short review of slow phase synchronization and memory: evidence for control processes in different memory systems?",
abstract = "An integrative theoretical approach about memory related oscillations is presented. The basic assumptions are that memory related oscillations are probably confined to theta and upper alpha and that other frequencies particularly in the gamma range are important for memory primarily because they become coupled to lower frequencies and/or because they play a specific role for a high precision timing of neural events (including phenomena such as LTP or LTD). In contrast to previous studies, where we related theta and upper alpha to a variety of different memory processes, we suggest here that these oscillations are associated with top-down control processes in two large storage systems, working memory (WM) and long-term memory (LTM). These systems may have their own types of top-down processes that control access to and/or manipulation of stored information. The hypothesis, suggested here is that theta and upper alpha reflect these processes which can be best studied when analyzing phase.",
author = "Wolfgang Klimesch and Roman Freunberger and Paul Sauseng and Walter Gruber",
year = "2008",
language = "Deutsch",
volume = "1235",
pages = "31--44",
journal = "BRAIN RES",
issn = "0006-8993",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - A short review of slow phase synchronization and memory: evidence for control processes in different memory systems?

AU - Klimesch, Wolfgang

AU - Freunberger, Roman

AU - Sauseng, Paul

AU - Gruber, Walter

PY - 2008

Y1 - 2008

N2 - An integrative theoretical approach about memory related oscillations is presented. The basic assumptions are that memory related oscillations are probably confined to theta and upper alpha and that other frequencies particularly in the gamma range are important for memory primarily because they become coupled to lower frequencies and/or because they play a specific role for a high precision timing of neural events (including phenomena such as LTP or LTD). In contrast to previous studies, where we related theta and upper alpha to a variety of different memory processes, we suggest here that these oscillations are associated with top-down control processes in two large storage systems, working memory (WM) and long-term memory (LTM). These systems may have their own types of top-down processes that control access to and/or manipulation of stored information. The hypothesis, suggested here is that theta and upper alpha reflect these processes which can be best studied when analyzing phase.

AB - An integrative theoretical approach about memory related oscillations is presented. The basic assumptions are that memory related oscillations are probably confined to theta and upper alpha and that other frequencies particularly in the gamma range are important for memory primarily because they become coupled to lower frequencies and/or because they play a specific role for a high precision timing of neural events (including phenomena such as LTP or LTD). In contrast to previous studies, where we related theta and upper alpha to a variety of different memory processes, we suggest here that these oscillations are associated with top-down control processes in two large storage systems, working memory (WM) and long-term memory (LTM). These systems may have their own types of top-down processes that control access to and/or manipulation of stored information. The hypothesis, suggested here is that theta and upper alpha reflect these processes which can be best studied when analyzing phase.

M3 - SCORING: Zeitschriftenaufsatz

VL - 1235

SP - 31

EP - 44

JO - BRAIN RES

JF - BRAIN RES

SN - 0006-8993

ER -