date: 2016-10-27T14:59:05Z
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pdf:docinfo:title: Effects of Part- and Whole-Object Primes on Early MEG Responses to Mooney Faces and Houses
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subject: Results from neurophysiological experiments suggest that face recognition engages a sensitive mechanism that is reflected in increased amplitude and decreased latency of the MEG M170 response compared to non-face visual targets.
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dc:title: Effects of Part- and Whole-Object Primes on Early MEG Responses to Mooney Faces and Houses
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cp:subject: Results from neurophysiological experiments suggest that face recognition engages a sensitive mechanism that is reflected in increased amplitude and decreased latency of the MEG M170 response compared to non-face visual targets.
pdf:docinfo:subject: Results from neurophysiological experiments suggest that face recognition engages a sensitive mechanism that is reflected in increased amplitude and decreased latency of the MEG M170 response compared to non-face visual targets.
pdf:docinfo:creator: Mara Steinberg Lowe
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Creation-Date: 2016-02-11T09:35:15Z
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dc:description: Results from neurophysiological experiments suggest that face recognition engages a sensitive mechanism that is reflected in increased amplitude and decreased latency of the MEG M170 response compared to non-face visual targets.
Keywords: MEG, mooney, face recognition, object recognition, M100, M170
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dc:creator: Mara Steinberg Lowe
description: Results from neurophysiological experiments suggest that face recognition engages a sensitive mechanism that is reflected in increased amplitude and decreased latency of the MEG M170 response compared to non-face visual targets.
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Last-Modified: 2016-10-27T14:59:05Z
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title: Effects of Part- and Whole-Object Primes on Early MEG Responses to Mooney Faces and Houses
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creator: Mara Steinberg Lowe
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