Neural correlates of encoding in an incidental learning paradigm.
about
ERP Correlates of Encoding Success and Encoding Selectivity in Attention SwitchingPredicting and Improving Recognition Memory Using Multiple Electrophysiological Signals in Real TimeERPs recorded during early second language exposure predict syntactic learningWhat drives social in-group biases in face recognition memory? ERP evidence from the own-gender bias.Left temporal alpha-band activity reflects single word intelligibility.Deviant ERP response to spoken non-words among adolescents exposed to cocaine in utero.fMRI congruous word repetition effects reflect memory variability in normal elderlyWhen encoding yields remembering: insights from event-related neuroimaging.The neural basis of episodic memory: evidence from functional neuroimaging.A resource for assessing information processing in the developing brain using EEG and eye trackingNoninvasive functional and anatomical imaging of the human medial temporal lobeMemory recall in arousing situations - an emotional von Restorff effect?The memory that's right and the memory that's left: event-related potentials reveal hemispheric asymmetries in the encoding and retention of verbal informationAbnormal N400 word repetition effects in fragile X-associated tremor/ataxia syndrome.Emotion and memory: Event-related potential indices predictive for subsequent successful memory depend on the emotional mood state.Comparative electrophysiological and hemodynamic measures of neural activation during memory-retrieval.Neuroelectric evidence for cognitive association formation: an event-related potential investigation.Active retrieval facilitates across-episode binding by modulating the content of memoryFractionating the word repetition effect with event-related potentials.Neurophysiological Manifestations of Recollective Experience during Recognition Memory Judgments.Episodic memory encoding interferes with reward learning and decreases striatal prediction errorsA method to combine cognitive and neurophysiological assessments of the elderly.On Teaching Old Dogs New TricksImplicit and explicit mechanisms of word learning in a narrative context: an event-related potential study.Why Some Faces won't be Remembered: Brain Potentials Illuminate Successful Versus Unsuccessful Encoding for Same-Race and Other-Race Faces.Patients with MCI and N400 or P600 abnormalities are at very high risk for conversion to dementiaPeople's hypercorrection of high-confidence errors: did they know it all along?Absent event-related potential (ERP) word repetition effects in mild Alzheimer's disease.Corticothalamic phase synchrony and cross-frequency coupling predict human memory formation.Effects of prediction and contextual support on lexical processing: prediction takes precedenceNeural correlates of the in-group memory advantage on the encoding and recognition of faces.BAIAP2 is related to emotional modulation of human memory strength.Neural conflict-control mechanisms improve memory for target stimuli.Abnormal verbal event related potentials in mild cognitive impairment and incipient Alzheimer's disease.A review of event-related potential components discovered in the context of studying P3.Event-related potential investigations of cognitive development and aging.Uncovering camouflage: amygdala activation predicts long-term memory of induced perceptual insight.Processing fluency hinders subsequent recollection: an electrophysiological studyDifferential effects of ongoing EEG beta and theta power on memory formation.Neural correlates of reactivation and retrieval-induced distortion
P2860
Q28554641-EC035C3F-9D05-4402-8304-848184161EB6Q28607504-AA54C034-05EA-4628-B454-AC54F3DCF502Q30403863-F84B0095-A62E-43BD-BCB0-2B675515CCA8Q30413285-16106B63-9C7A-4247-B1A7-8051A5C5D307Q30444530-0131C725-D3D2-43AE-B830-277DCD7FF19FQ30455318-CFDA6E87-51AD-453B-B5AA-D9B4050675E3Q30496761-9146EC24-68EB-4939-814C-F315262B82DBQ30581009-706DC745-F18B-4FCF-BB14-8E493E4A20B8Q30720710-1C36D453-E522-4200-B36B-A09B97E7FDA3Q30844962-F363C3AB-25C1-4C1D-BCD7-BED56F69A2E3Q30911451-CE577304-BE82-404F-BEE2-9522B6DEB3E5Q33251557-319313CC-0B53-44CA-8ED1-94A6D6685FD8Q33273088-84B5C062-F3A3-46FE-8F9B-A0228FE36564Q33808428-9EB09EFD-2598-4699-941B-74CA8DBB6AB1Q33831354-BA5CF85B-290C-4098-B53C-05C11550E724Q33946306-69491BEC-B799-4C02-8E37-E14AF2F33A65Q34247100-99FE7AE5-6974-4E1F-B955-D2D821793BA0Q34324836-E6DFECD0-4BA0-46AE-AFA1-08625B326E25Q34366219-AFDD9A9E-E80A-4D87-9410-9BA4BE50F0E5Q34366230-BF8D5D15-B992-4CF5-93B4-8B2A19997FC1Q34451670-928F0760-5DBB-49AA-9A11-10EF5EDDC98AQ34482701-E2131108-0C40-41F2-B71F-BFDA47400653Q34499171-420A6561-CB61-4DC2-89C1-CF0DB03A8F4CQ34628048-693BDC2A-EE2B-41F3-A406-E010C3C43725Q34674883-D07C8DA7-63C1-4D5B-8498-9EAD42C8FD38Q34767817-13D16CB8-54FA-484C-943F-793F71DD21D5Q34814970-820F7ABF-D4CD-4F96-A6FB-4B4FAB32A5F5Q34984088-4DEA8992-49C8-4B4C-85A8-93DDFF9CAD34Q34996892-8F63BBB9-CB82-482E-AD62-CBB2F24307ADQ35019843-E420212C-28B2-4B72-8B6B-449182D02B93Q35072906-38886410-A833-477A-AE55-251E9E24B688Q35083262-FAF39489-A583-40BC-9694-61ACE131231AQ35452791-B94DE6A1-28BB-4580-A9A6-8ECB6A67D744Q35469324-C2CA822C-21A5-4FFB-9FB2-4CD5098D77E3Q35670901-C374FC02-1234-4389-A01D-9E092C831B17Q35670931-3E3387C8-E0FF-4BF2-9803-49BE7694E20AQ35762570-2D3A5B35-DDE4-4273-9B61-F9DFF8D2A3BEQ35773366-9E0ACF45-4261-4796-BB1B-A8D0491150CDQ36278495-1E2BC05C-5391-4FD7-91DA-E55AFCEBE149Q36283717-9337462A-2478-44F0-947D-6064932DCC17
P2860
Neural correlates of encoding in an incidental learning paradigm.
description
1987 nî lūn-bûn
@nan
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
1987年论文
@zh
1987年论文
@zh-cn
name
Neural correlates of encoding in an incidental learning paradigm.
@en
type
label
Neural correlates of encoding in an incidental learning paradigm.
@en
prefLabel
Neural correlates of encoding in an incidental learning paradigm.
@en
P1476
Neural correlates of encoding in an incidental learning paradigm
@en
P2093
P304
P356
10.1016/0013-4694(87)90124-6
P577
1987-10-01T00:00:00Z