How to Apply
A cover letter is required for consideration and should be attached as the first page of your resume. The cover letter should describe your specific interest in the position and highlight the skills and experience that directly relate to the role.
In addition to applying through the University careers site, please also email your CV and cover letter to Prof. Talia Moore ([email protected]) and Prof. Hongyi Xiao ([email protected]) by March 31, 2026. The position is initially offered for one year with a preferred start date of May 1, 2026; extension for up to three years is possible contingent upon satisfactory performance.
Job Summary
We are looking for a postdoctoral researcher to investigate the interaction between bio-mimetic foot structures and granular substrates. In this role, you will perform numerical simulation and reduced-order modeling of naturally-shaped granular materials interacting with specific foot structures. You will also have the chance to perform experiments while supervising or collaborating with students.
Who We Are
Michigan Engineering provides scientific and technological leadership to the people of the world. We seek to improve the quality of life by developing intellectually curious and socially conscious minds, creating collaborative solutions to societal problems, and promoting an inclusive and innovative community of service for the common good.
Why Work at Michigan?
Being part of something greater, of serving a larger mission of discovery and care that's the heart of what drives people to work at Michigan. In some way, great or small, every person here helps to advance this world-class institution. It's adding a purpose to your profession. Work at Michigan and become a victor for the greater good.
Responsibilities*
To be considered for this position, you are expected to have a PhD degree in engineering, physics, or a closely related discipline. Ideal applicants will have demonstrated research experience in areas such as the jamming and deformation of granular materials, solid mechanics, as well as the dynamics of locomotion on soft substrates. A strong background in computational research using Discrete Element Method and continuum mechanics simulations are preferred, while experimental skills related to high-speed imaging, X-ray imaging, and data acquisition and signal filtering are also appreciated. You should be self-motivated and interested in the translation of fundamental physics to real-world applications.
Required Qualifications*
- PhD degree in engineering, physics, or a closely related discipline
- 4+ years of research experience in areas such as jamming and deformation of granular materials, solid mechanics, and the dynamics of locomotion on soft substrates
- A strong background in computational research using the Discrete Element Method and continuum mechanics simulations is preferred
- Experimental skills related to high-speed imaging, X-ray imaging, data acquisition, and signal filtering
- Interest in the translation of fundamental physics to real-world applications
Modes of Work
Positions that are eligible for hybrid or mobile/remote work mode are at the discretion of the hiring department. Work agreements are reviewed annually at a minimum and are subject to change at any time, and for any reason, throughout the course of employment. Learn more about the work modes.
Background Screening
The University of Michigan conducts background checks on all job candidates upon acceptance of a contingent offer and may use a third party administrator to conduct background checks. Background checks are performed in compliance with the Fair Credit Reporting Act.
U-M EEO Statement
The University of Michigan is an equal employment opportunity employer.