osipova hermes and jensen 2008 | Sci osipova hermes and jensen 2008 In the posterior cortex, gamma bursts are strongly coupled to the ongoing phase of alpha (Spaak, Bonnefond, Maier, Leopold, & Jensen, 2012; Voytek et al., 2010; Osipova, Hermes, & Jensen, .
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0 · The brain's resting
1 · Successful memory encoding is associated with increased cross
2 · Sci
3 · Preservation and Changes in Oscillatory Dynamics across the
4 · Gamma power is phase
5 · Gamma Power Is Phase
6 · Coupling between alpha and gamma activity. A. Cross
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Our findings show that high-frequency gamma power (30-70 Hz) is phase-locked to alpha oscillations (8-13 Hz) in the ongoing MEG signals. The topography of the coupling was similar .
Citation: Osipova D, Hermes D, Jensen O (2008) Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE 3 (12): e3990. .205 Scopus citations. Overview. Fingerprint. Abstract. Neuronal oscillations in various frequency bands have been reported in numerous studies in both humans and animals. While it is . D. Osipova, D. Hermes, O. Jensen. Published in PLoS ONE 22 December 2008. Physics. TLDR. It is shown that high-frequency gamma power is phase-locked to alpha . Osipova D, Hermes D, Jensen O. Gamma power is phase-locked to posterior alpha activity. PLoS One. 2008; 3:e3990. [PMC free article] [Google Scholar]
In the posterior cortex, gamma bursts are strongly coupled to the ongoing phase of alpha (Spaak, Bonnefond, Maier, Leopold, & Jensen, 2012; Voytek et al., 2010; Osipova, Hermes, & Jensen, .Osipova, D., Hermes, D., & Jensen, O. (2008). Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE, 3(12), e3990. doi:10.1371/journal.pone.0003990
Furthermore, gamma power has shown to be phase-locked to alpha activity in posterior regions (Osipova et al. 2008), which is thought to aid in the rhythmic regulation of attention. . On the basis of Osipova et al. (2006) , the main objectives of our study were (a) to confirm subsequent memory effects in theta, alpha, and gamma frequency bands, (b) to .
Our findings show that high-frequency gamma power (30–70 Hz) is phase-locked to alpha oscillations (8–13 Hz) in the ongoing MEG signals. The topography of the coupling was similar .
Our findings show that high-frequency gamma power (30-70 Hz) is phase-locked to alpha oscillations (8-13 Hz) in the ongoing MEG signals. The topography of the coupling was similar to the topography of the alpha power and was strongest over occipital areas. Citation: Osipova D, Hermes D, Jensen O (2008) Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE 3 (12): e3990. https://doi.org/10.1371/journal.pone.0003990. Editor: Aldo Rustichini, University of Minnesota, United States of America. Received: May 6, 2008; Accepted: November 21, 2008; Published: .205 Scopus citations. Overview. Fingerprint. Abstract. Neuronal oscillations in various frequency bands have been reported in numerous studies in both humans and animals. While it is obvious that these oscillations play an important role in cognitive processing. It remains unclear how oscillations in various frequency bands interact.
D. Osipova, D. Hermes, O. Jensen. Published in PLoS ONE 22 December 2008. Physics. TLDR. It is shown that high-frequency gamma power is phase-locked to alpha oscillations in the ongoing MEG signals and cross-frequency coupling was similar to the topography of the alpha power and was strongest over occipital areas. Expand. [PDF] . Osipova D, Hermes D, Jensen O. Gamma power is phase-locked to posterior alpha activity. PLoS One. 2008; 3:e3990. [PMC free article] [Google Scholar]In the posterior cortex, gamma bursts are strongly coupled to the ongoing phase of alpha (Spaak, Bonnefond, Maier, Leopold, & Jensen, 2012; Voytek et al., 2010; Osipova, Hermes, & Jensen, 2008). In the frontal cortex, there is phase–amplitude coupling .Osipova, D., Hermes, D., & Jensen, O. (2008). Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE, 3(12), e3990. doi:10.1371/journal.pone.0003990
Furthermore, gamma power has shown to be phase-locked to alpha activity in posterior regions (Osipova et al. 2008), which is thought to aid in the rhythmic regulation of attention. . On the basis of Osipova et al. (2006) , the main objectives of our study were (a) to confirm subsequent memory effects in theta, alpha, and gamma frequency bands, (b) to identify the cortical generators of these effects, and (c) to explore if posterior gamma power is coupled to the phases of frontal theta oscillations during the encoding of new .Our findings show that high-frequency gamma power (30–70 Hz) is phase-locked to alpha oscillations (8–13 Hz) in the ongoing MEG signals. The topography of the coupling was similar to the topography of the alpha power and was strongest over occipital areas.Our findings show that high-frequency gamma power (30-70 Hz) is phase-locked to alpha oscillations (8-13 Hz) in the ongoing MEG signals. The topography of the coupling was similar to the topography of the alpha power and was strongest over occipital areas.
Citation: Osipova D, Hermes D, Jensen O (2008) Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE 3 (12): e3990. https://doi.org/10.1371/journal.pone.0003990. Editor: Aldo Rustichini, University of Minnesota, United States of America. Received: May 6, 2008; Accepted: November 21, 2008; Published: .205 Scopus citations. Overview. Fingerprint. Abstract. Neuronal oscillations in various frequency bands have been reported in numerous studies in both humans and animals. While it is obvious that these oscillations play an important role in cognitive processing. It remains unclear how oscillations in various frequency bands interact.
D. Osipova, D. Hermes, O. Jensen. Published in PLoS ONE 22 December 2008. Physics. TLDR. It is shown that high-frequency gamma power is phase-locked to alpha oscillations in the ongoing MEG signals and cross-frequency coupling was similar to the topography of the alpha power and was strongest over occipital areas. Expand. [PDF] . Osipova D, Hermes D, Jensen O. Gamma power is phase-locked to posterior alpha activity. PLoS One. 2008; 3:e3990. [PMC free article] [Google Scholar]In the posterior cortex, gamma bursts are strongly coupled to the ongoing phase of alpha (Spaak, Bonnefond, Maier, Leopold, & Jensen, 2012; Voytek et al., 2010; Osipova, Hermes, & Jensen, 2008). In the frontal cortex, there is phase–amplitude coupling .Osipova, D., Hermes, D., & Jensen, O. (2008). Gamma Power Is Phase-Locked to Posterior Alpha Activity. PLoS ONE, 3(12), e3990. doi:10.1371/journal.pone.0003990
Furthermore, gamma power has shown to be phase-locked to alpha activity in posterior regions (Osipova et al. 2008), which is thought to aid in the rhythmic regulation of attention. .
The brain's resting
On the basis of Osipova et al. (2006) , the main objectives of our study were (a) to confirm subsequent memory effects in theta, alpha, and gamma frequency bands, (b) to identify the cortical generators of these effects, and (c) to explore if posterior gamma power is coupled to the phases of frontal theta oscillations during the encoding of new .
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osipova hermes and jensen 2008|Sci
