Bilal Haider

Georgia Institute of Technology

H-index: 14

North America-United States

About Bilal Haider

Bilal Haider, With an exceptional h-index of 14 and a recent h-index of 14 (since 2020), a distinguished researcher at Georgia Institute of Technology, specializes in the field of Neuroscience, Neuroengineering.

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

Single capture quantitative oblique back-illumination microscopy enables in-vivo quantitative phase imaging

Lateral inhibition in V1 controls neural & perceptual contrast sensitivity

Narrowband gamma oscillations propagate and synchronize throughout the mouse thalamocortical visual system

Thalamic bursting and the role of timing and synchrony in thalamocortical signaling in the awake mouse

Optimizing intact skull intrinsic signal imaging for subsequent targeted electrophysiology across mouse visual cortex

Probing mechanisms of visual spatial attention in mice

Spatial modulation of dark versus bright stimulus responses in the mouse visual system

Thalamic state controls timing and synchronization of primary somatosensory cortical representations in the awake mouse

Bilal Haider Information

University	Georgia Institute of Technology
Position	& Emory University Dept. of Biomedical Engineering
Citations(all)	4018
Citations(since 2020)	1388
Cited By	3253
hIndex(all)	14
hIndex(since 2020)	14
i10Index(all)	17
i10Index(since 2020)	16
Email	Access Email
University Profile Page	Georgia Institute of Technology
Google Scholar	View Google Scholar Profile

Bilal Haider Skills & Research Interests

Neuroscience

Neuroengineering

Bilal Haider

Georgia Institute of Technology

About Bilal Haider

Bilal Haider Information

Bilal Haider Skills & Research Interests

Top articles of Bilal Haider

Single capture quantitative oblique back-illumination microscopy enables in-vivo quantitative phase imaging

Paloma Casteleiro Costa

Bilal Haider

Francisco E Robles

Lateral inhibition in V1 controls neural & perceptual contrast sensitivity

Bilal Haider

Narrowband gamma oscillations propagate and synchronize throughout the mouse thalamocortical visual system

Donghoon Shin

Bilal Haider

Thalamic bursting and the role of timing and synchrony in thalamocortical signaling in the awake mouse

Peter Y Borden

Nathaniel C Wright

Dieter Jaeger

Bilal Haider

Optimizing intact skull intrinsic signal imaging for subsequent targeted electrophysiology across mouse visual cortex

Donghoon Shin

Bilal Haider

Probing mechanisms of visual spatial attention in mice

Anderson Speed

Bilal Haider

Spatial modulation of dark versus bright stimulus responses in the mouse visual system

Anderson Speed

Bilal Haider

Thalamic state controls timing and synchronization of primary somatosensory cortical representations in the awake mouse

Peter Y Borden

Nathaniel C Wright

Dieter Jaeger

Bilal Haider

Diminished Cortical Excitation and Elevated Inhibition During Perceptual Impairments in a Mouse Model of Autism

Anderson Speed

Bilal Haider

Spatial attention enhances network, cellular and subthreshold responses in mouse visual cortex

Anderson Speed

Bilal Haider

Co-Authors

David A. McCormick

Ed Boyden

Matteo Carandini

Michael Häusser

Kenneth Harris

Craig R. Forest