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An oscillatory mechanism for multi-level storage in short-term memory

Neuroscience

An oscillatory mechanism for multi-level storage in short-term memory

K. P. Champion, O. Gozel, et al.

This innovative research by Kathleen P. Champion, Olivia Gozel, Benjamin S. Lankow, G. Bard Ermentrout, and Mark S. Goldman reveals a groundbreaking mechanism where oscillatory activity enhances short-term memory storage. Their findings suggest that brain oscillations could play a crucial role in maintaining diverse neural representations, offering a fresh perspective on working memory models.

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Playback language: English
Abstract
This paper investigates the role of oscillatory activity in short-term memory storage. Existing non-oscillatory models struggle to represent both stimulus identity and amplitude realistically. The authors propose a mechanism where oscillatory input enables a circuit to encode information in both spatial and amplitude patterns of activity through a phase-locking phenomenon. This allows for the storage of multiple activity amplitudes without requiring precise parameter tuning, offering a new model for working memory storage and a potential role for brain oscillations in maintaining multi-stable neural representations.
Publisher
Communications Biology
Published On
Aug 10, 2023
Authors
Kathleen P. Champion, Olivia Gozel, Benjamin S. Lankow, G. Bard Ermentrout, Mark S. Goldman
Tags
short-term memory
oscillatory activity
brain oscillations
memory storage
phase-locking
neural representations
working memory

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