Postdoctoral Fellow: Primate Systems Neuroscience at Johns Hopkins
Johns Hopkins University: Mind/Brain Institute
October 8, 2018
Full Time - Experienced
Academic / Research
The laboratory of Dr. Christopher Fetsch (Dept. of Neuroscience) at Johns Hopkins University is actively seeking an outstanding postdoctoral fellow to study the neural mechanisms of multisensory decision making, self-motion perception, and metacognition in nonhuman primates. Details of specific projects are flexible, but would typically involve multi-region, multi-electrode recordings and causal manipulations of neural activity during performance of sophisticated behavioral tasks. Specific techniques available include high-density electrophysiology, microstimulation, pharmacological manipulations, and optogenetics, as well as delivery of arbitrary three-dimensional motion stimuli with a 6-degree-of-freedom platform and wide-field visual display (virtual-reality / flight simulator apparatus). We are equipped to perform rigorous psychophysics in human subjects, and computational modeling/theory is an integral part of most projects. Please see our website for more information: www.fetschlab.org
Candidates should have a PhD in Neuroscience, Biology, Engineering, Physics, Computer Science, or related field. Relevant research experience is required, including neurophysiology (ideally but not necessarily in nonhuman primates), operant behavior/psychophysics, computation and data analysis using MATLAB, Python, or equivalent. Experience with OpenGL, game engine or virtual-reality applications is highly desirable. We offer competitive salary and benefits and can guarantee funding. Interested applicants should send a CV along with the names and contact info for three references to email@example.com.
Internal Number: 1337
About Johns Hopkins University: Mind/Brain Institute
The Zanvyl Krieger Mind/Brain Institute (MBI) is a free-standing institute at Johns Hopkins University with strong connections to the Krieger School of Arts and Sciences and the School of Medicine. The MBI is dedicated to the study of the neural mechanisms of higher brain functions using modern neurophysiological, optical, anatomical, and computational techniques. Our goal is to understand, at the most fundamental, algorithmic level, how the brain processes information about the world to generate perception, knowledge, memory, decision, and action. The Institute is situated on the beautiful Homewood campus in North Baltimore, Maryland. Baltimore is a thriving and affordable metropolitan area that is only 1 hour from Washington, DC, 2 hours from Philadelphia, and 3 hours from New York City.