Monday, August 26, 2024

Hwang Lab for Neurocognitive Dynamics

PI

Kai Hwang

Project Details

The Hwang lab conducts research to understand the neural mechanisms of executive functions. Specifically, we are interested in discovering the neural architecture, processes, and dynamic systems that allow brain networks to select, inhibit, transfer, and integrate information. Together, these mechanisms support many important mental functions, such as attention, working memory, response selection and inhibition. We address our research questions with a comprehensive human neuroscience approach, combining multimodal research methodologies, including fMRI, EEG, TMS, eye tracking and behavioral testing.

Research assistants will gain valuable experience with cognitive neuroscience research. Specifically, the research assistant will assist with subject recruitment, behavioral/EEG/TMS/fMRI data collection, quality control of neuroimaging data, and execution of data analyses. If motivated, the applicant will also have the opportunity to learn advanced neuroimaging methods and develop research projects. Assistants are also encouraged to attend regular journal clubs to discuss the most up-to-date scientific literature.

Preference will be given to applicants who plan to pursue advanced training in a related area (e.g., PhD in Psychology or Neuroscience). Experience with programming/scripting languages, such as Python or Matlab will be a plus but not required. A two-semester and minimally 6-10 weekly hour commitment is preferred, with the understanding that continued participation beyond 2 semesters is encouraged. Applicants should have a GPA of 3.2 or higher.

Qualifications

The Hwang lab conducts research to understand the neural mechanisms of executive functions. Specifically, we are interested in discovering the neural architecture, processes, and dynamic systems that allow brain networks to select, inhibit, transfer, and integrate information. Together, these mechanisms support many important mental functions, such as attention, working memory, response selection and inhibition. We address our research questions with a comprehensive human neuroscience approach, combining multimodal research methodologies, including fMRI, EEG, TMS, eye tracking and behavioral testing.

Research assistants will gain valuable experience with cognitive neuroscience research. Specifically, the research assistant will assist with subject recruitment, behavioral/EEG/TMS/fMRI data collection, quality control of neuroimaging data, and execution of data analyses. If motivated, the applicant will also have the opportunity to learn advanced neuroimaging methods and develop research projects. Assistants are also encouraged to attend regular journal clubs to discuss the most up-to-date scientific literature.

Preference will be given to applicants who plan to pursue advanced training in a related area (e.g., PhD in Psychology or Neuroscience). Experience with programming/scripting languages, such as Python or Matlab will be a plus but not required. A two-semester and minimally 6-10 weekly hour commitment is preferred, with the understanding that continued participation beyond 2 semesters is encouraged. Applicants should have a GPA of 3.2 or higher.

Qualifications

A two-semester and minimally 6-10 weekly hour commitment is preferred, with the understanding that continued participation beyond 2 semesters is encouraged. Applicants should have a GPA of 3.2 or higher.

Time Commitment

6 to 10

Compensation

Volunteer (Optional registration for URES:3992, 0-credit transcript recognition), Academic Credit (1-4 Semester Hours)

Start Date

Immediate, Near future, Fall semester, Spring semester, Summer semester

 Timeline

Ongoing, potential to be a continuous position

Application Instructions

If interested, please email our lab manager Shannon Stokes (shannon-stokes@uiowa.edu) with your resume/CV and a letter of interest. Please list relevant courses taken and grades.