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John Assad

John Assad

Harvard University

H-index: 32

North America-United States

About John Assad

John Assad, With an exceptional h-index of 32 and a recent h-index of 22 (since 2020), a distinguished researcher at Harvard University, specializes in the field of neuroscience.

His recent articles reflect a diverse array of research interests and contributions to the field:

Dopamine mediates the bidirectional update of interval timing.

Tapered fibertrodes for optoelectrical neural interfacing in small brain volumes with reduced artefacts

Ramping activity in the medial prefrontal cortex integrates time and rewards in opposing directions during patch foraging

Interfacing with small brain volumes with tapered fiber-based optrode

Dynamic dopaminergic activity controls the timing of self-timed movement

Slowly evolving dopaminergic activity modulates the moment-to-moment probability of reward-related self-timed movements

Integrated tapered fibertrode for simultaneous control and readout of neural activity over small brain volumes with reduced light-induced artefacts

Application of a unifying reward-prediction error (RPE)-based framework to explain underlying dynamic dopaminergic activity in timing tasks

John Assad Information

University

Position

Harvard Medical School

Citations(all)

7961

Citations(since 2020)

2066

Cited By

6768

hIndex(all)

32

hIndex(since 2020)

22

i10Index(all)

43

i10Index(since 2020)

34

Email

Access Email

University Profile Page

Harvard University

Google Scholar

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John Assad Skills & Research Interests

neuroscience

Top articles of John Assad

Title

Journal

Author(s)

Publication Date

Dopamine mediates the bidirectional update of interval timing.

Behavioral neuroscience

Anthony Jakob

John G Mikhael

Allison E Hamilos

John A Assad

Samuel J Gershman

2022/10

Tapered fibertrodes for optoelectrical neural interfacing in small brain volumes with reduced artefacts

Nature materials

Barbara Spagnolo

Antonio Balena

Rui T Peixoto

Marco Pisanello

Leonardo Sileo

...

2022/7

Ramping activity in the medial prefrontal cortex integrates time and rewards in opposing directions during patch foraging

Michael Bukwich

2022

Interfacing with small brain volumes with tapered fiber-based optrode

B Spagnolo

Rui T Peixoto

L Sileo

M Pisanello

F Pisano

...

2021/4/12

Dynamic dopaminergic activity controls the timing of self-timed movement

Allison Elizabeth Hamilos

2021

Slowly evolving dopaminergic activity modulates the moment-to-moment probability of reward-related self-timed movements

Elife

Allison E Hamilos

Giulia Spedicato

Ye Hong

Fangmiao Sun

Yulong Li

...

2021/12/23

Integrated tapered fibertrode for simultaneous control and readout of neural activity over small brain volumes with reduced light-induced artefacts

bioRxiv

Barbara Spagnolo

Rui T Peixoto

Leonardo Sileo

Marco Pisanello

Filippo Pisano

...

2020/8/3

Application of a unifying reward-prediction error (RPE)-based framework to explain underlying dynamic dopaminergic activity in timing tasks

bioRxiv

Allison E Hamilos

John A Assad

2020/6/4

See List of Professors in John Assad University(Harvard University)