208 pp. per issue
8 1/2 x 11, illustrated
2014 Impact factor:

Journal of Cognitive Neuroscience



Journal of Cognitive Neuroscience investigates brain–behavior interaction and promotes lively interchange among the mind sciences. Contributions address both descriptions of function and underlying brain events and reflect the interdisciplinary nature of the field, covering developments in neuroscience, neuropsychology, cognitive psychology, neurobiology, linguistics, computer science, and philosophy. JOCN is an online-only publication and is published by the MIT Press and the Cognitive Neuroscience Institute.

Table of Contents

Vol. 33, Issue 1 - January 2021


Statement from the Incoming Editor-in-Chief
pp. 1-2
Abstract | PDF (74.88 KB)
Gender (Im)balance in Citation Practices in Cognitive Neuroscience
pp. 3-7
Abstract | PDF (386.74 KB)
From Psychoacoustics to Brain Waves: A Longitudinal Approach to Novel Word Learning
pp. 8-27
Abstract | PDF (1.13 MB)
Self-reported Mind Wandering and Response Time Variability Differentiate Prestimulus Electroencephalogram Microstate Dynamics during a Sustained Attention Task
pp. 28-45
Abstract | PDF (909.11 KB)
Working Memory in Unilateral Spatial Neglect: Evidence for Impaired Binding of Object Identity and Object Location
pp. 46-62
Abstract | PDF (1.35 MB)
The Role of Frontoparietal Cortex across the Functional Stages of Visual Search
pp. 63-76
Abstract | PDF (754.42 KB)
Transient Neural Activation of Abstract Relations on an Incidental Analogy Task
pp. 77-88
Abstract | PDF (715.35 KB)
The Role of Hippocampal–Ventromedial Prefrontal Cortex Neural Dynamics in Building Mental Representations
pp. 89-103
Abstract | PDF (875.55 KB)
Caffeine Boosts Preparatory Attention for Reward-related Stimulus Information
pp. 104-118
Abstract | PDF (1008.12 KB)
Unwanted Memory Intrusions Recruit Broad Motor Suppression
pp. 119-128
Abstract | PDF (397.21 KB)
A Sound Explanation for Motor Cortex Engagement during Action Word Comprehension
pp. 129-145
Abstract | PDF (652.9 KB)
Converging Evidence That Neural Plasticity Underlies Transcranial Direct-Current Stimulation
pp. 146-157
Abstract | PDF (677.09 KB)