When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
about
Multivariate cross-frequency coupling via generalized eigendecomposition.On memories, neural ensembles and mental flexibility.A Network Neuroscience of Human Learning: Potential to Inform Quantitative Theories of Brain and Behavior.Discriminating Valid from Spurious Indices of Phase-Amplitude Coupling.Dual origins of measured phase-amplitude coupling reveal distinct neural mechanisms underlying episodic memory in the human cortex.Neuronal Oscillations with Non-sinusoidal Morphology Produce Spurious Phase-to-Amplitude Coupling and Directionality.Beyond the Status Quo: A Role for Beta Oscillations in Endogenous Content (Re)ActivationCognitive control during audiovisual working memory engages frontotemporal theta-band interactions.Generative models for network neuroscience: prospects and promise.The rate of transient beta frequency events predicts behavior across tasks and species.Unified thalamic model generates multiple distinct oscillations with state-dependent entrainment by stimulation.Altered modulation of sensorimotor rhythms with chronic paralysis.Using spatiotemporal source separation to identify prominent features in multichannel data without sinusoidal filters.Frontal Cortex and the Hierarchical Control of Behavior.Spike-Centered Jitter Can Mistake Temporal Structure.Moving Beyond ERP Components: A Selective Review of Approaches to Integrate EEG and Behavior.Non-invasive Brain Stimulation: A Paradigm Shift in Understanding Brain Oscillations.Neural Oscillations: Sustained Rhythms or Transient Burst-Events?Lamina-specific cortical dynamics in human visual and sensorimotor cortices
P2860
Q37603775-BE96973D-983F-4D65-A666-5656F39F72F0Q38672283-A3F7B2D5-BD96-4080-BCE2-B7949A9F6C9AQ38929501-223715EF-2EB9-462C-ACA5-49B79585E12CQ39013423-7951C92B-2377-44ED-BA3D-734960DC6B97Q39033166-63F861CF-1CC4-4A00-8D4A-EFEACA470C32Q39420441-46BE5C91-51A3-4D37-AB06-C275CAE9EFF1Q41205346-BF670DAF-64BC-476D-BB4C-9AB58FA88A1FQ42085507-4E7BDAE0-57B4-41DB-89CA-C8CE1456B264Q46251694-0753E479-1C65-44E8-AE98-5731B7123B9AQ46268228-115C98FF-A846-4208-88E2-A7947B3DF126Q46957503-EB337C2A-345D-4C84-9793-57E0DAD8E54EQ47808480-010CD759-485A-404D-BA83-6E1628AD4350Q47901551-1BAB7376-7FDA-4D32-A3EE-B4403D0C29E8Q47921577-07301CAE-1F66-4F5C-A11D-51695FEF3011Q48008191-AE19651C-068E-416A-B3C1-3DF46EF5C5D7Q52597685-1BAB0787-BA3F-4299-A11E-77DDE9C2AE45Q55069002-65C52164-378C-423E-A87B-550ADC369B07Q55410925-D4AA65FC-0389-47EC-A2F7-D26F47752EB2Q57802466-AA21E435-3F90-48F8-AFDA-87B095E4FE91
P2860
When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年学术文章
@wuu
2016年学术文章
@zh-cn
2016年学术文章
@zh-hans
2016年学术文章
@zh-my
2016年学术文章
@zh-sg
2016年學術文章
@yue
2016年學術文章
@zh
2016年學術文章
@zh-hant
name
When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
@en
type
label
When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
@en
prefLabel
When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
@en
P2860
P1476
When brain rhythms aren't 'rhythmic': implication for their mechanisms and meaning.
@en
P2093
Stephanie R Jones
P2860
P356
10.1016/J.CONB.2016.06.010
P577
2016-07-08T00:00:00Z