The University of Texas MD Anderson Cancer Center
Postdoc Position in Human Intracranial Single-Neuron Recordings at UTSW
The University of Texas MD Anderson Cancer Center, Dallas, Texas, United States, 75215
Job Title:
Postdoc Position in Human Intracranial Single-Neuron Recordings at UTSW
Job Number:
86607
Location:
Dallas, US
Job Description
Postdoctoral positions are available in the Department of Neurological Surgery at UT Southwestern, jointly supervised by Nader Pouratian, M.D., Ph.D., and Zhongzheng Fu, Ph.D. Our labs study the neural mechanisms of cognitive control and action regulation using mathematical modeling and human intracranial neurophysiology. We are seeking talented electrophysiologists and cognitive neuroscientists to join us to work on exciting projects in human neuroscience in the highly diverse and affordable city of Dallas, TX.
The primary focus of this position is to help develop human single neuron recordings in intraoperative settings, utilizing the latest technological advances in human electrophysiology. The scientific goal is to develop an in-depth understanding of the network physiology underlying action regulation and cognitive control, and its dysfunction in movement disorders.
Application Deadline:
2024-12-14
#J-18808-Ljbffr
Postdoc Position in Human Intracranial Single-Neuron Recordings at UTSW
Job Number:
86607
Location:
Dallas, US
Job Description
Postdoctoral positions are available in the Department of Neurological Surgery at UT Southwestern, jointly supervised by Nader Pouratian, M.D., Ph.D., and Zhongzheng Fu, Ph.D. Our labs study the neural mechanisms of cognitive control and action regulation using mathematical modeling and human intracranial neurophysiology. We are seeking talented electrophysiologists and cognitive neuroscientists to join us to work on exciting projects in human neuroscience in the highly diverse and affordable city of Dallas, TX.
The primary focus of this position is to help develop human single neuron recordings in intraoperative settings, utilizing the latest technological advances in human electrophysiology. The scientific goal is to develop an in-depth understanding of the network physiology underlying action regulation and cognitive control, and its dysfunction in movement disorders.
Application Deadline:
2024-12-14
#J-18808-Ljbffr