About the Project
Active matter includes flocks of birds, swarms of insects, ensembles of robots, and colonies of bacteria. We are seeking a highly motivated PhD candidate with a Master’s degree in Physics or Physical Chemistry with excellent English proficiency. The successful candidate will perform cutting edge experimental research on the dynamics and non-equilibrium statistical thermodynamics of these systems, with a main focus on many-body effects and confining environments. The candidate should therefore be committed to collaborative and interdisciplinary work, and have excellent oral and written communication skills (records of creative and independent scientific research and active participation in its dissemination in peer-reviewed journals are welcome).
The experimental work will and allow the successful applicant to acquire expert skills and knowledge on innovative micro-optical multi-particle manipulation and detection techniques as well as on machine learning algorithms applied to active particle detection and control. Experience with modern optical microscopy and tweezers techniques and image and time-series analysis, which will be employed to control and study active-particle swarms and microscopic thermodynamic machines, would be useful.
The working language is English. Salaries will be according to DFG standards.
Applications including 1) a letter of interest (max. 1 page), clearly stating the specific motivation of the candidate to join the group, work on this project, career goals, etc., 2) a CV, 3) grade transcripts or equivalent record of excellent academic performance, clearly indicating courses taken and grades in each course (for MS and BS), 4) the names of at least two consenting referees should be sent to [Email Address Removed]. The application deadline is July 31, 2020.
Please visit our group website for more details about our research:
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