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image: Profile: Dean Buonomano Studies How the Brain Encodes Time

Profile: Dean Buonomano Studies How the Brain Encodes Time

By | September 1, 2016

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: More Than Skin Deep

More Than Skin Deep

By | May 1, 2016

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: In Dogged Pursuit of Sleep

In Dogged Pursuit of Sleep

By | March 1, 2016

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: Fearless about Folding

Fearless about Folding

By | January 1, 2016

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: The Regenerator

The Regenerator

By | December 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: Circuit Dynamo

Circuit Dynamo

By | October 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: The Ears Have It

The Ears Have It

By | September 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: Leaving an Imprint

Leaving an Imprint

By | August 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: Resistance Fighter

Resistance Fighter

By | June 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

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image: Putting It Together

Putting It Together

By | May 1, 2015

The UCLA neurobiologist uses computational modeling, in vitro electrophysiology, and human psychophysics experiments to explore how neurons and the brain as a whole perceive and respond to time.

1 Comment

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