198 phd-in-computational-mechanics-"FEMTO-ST"-"FEMTO-ST" positions at ETH Zurich in Switzerland
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Researcher Profile Leading Researcher (R4) Positions PhD Positions Country Switzerland Application Deadline 5 Dec 2025 - 17:00 (Europe/Zurich) Type of Contract Temporary Job Status Full-time Is the job funded
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skills to collaborate across disciplines. Must haves for PhD (all tracks): A master's degree and outstanding academic record from a top university in Materials Science, Mechanical Engineering, Electrical
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, Switzerland [map ] Subject Areas: Computer Science / Distributed Systems and Networking , Networking , Networking and distributed systems Appl Deadline: 2026/01/08 11:59PM (posted 2025/11/10, listed until
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100%, Zurich, fixed-term The bioMatter Microfluidics Group of Dr Eleonora Secchi at ETH Zurich is seeking two PhD candidates. Our research focuses on uncovering the physicochemical mechanisms
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100%, Zurich, fixed-term We are seeking for a curious and motivated PhD student to join our optomechanics team and work at the interface between meta-optics and optomechanics. Recent advances in
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The Computational Mechanics Group in the Department of Mechanical and Process Engineering of ETH Zurich is seeking one doctoral student. The position is funded by the SOFRA(CT) project and aims
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qualifications that include strong analytical and quantitative skills in computational solid mechanics, nonlinear dynamics, data analysis, mechatronics, and interest in laboratory-based experimentation and
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a highly committed multidisciplinary team Regular meetings and close collaboration with the project partners Enrolment in the PhD program of ETH Zürich ETH Zürich is a family-friendly employer with
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. Profile Applicants must hold a M.Sc. Diploma (120 ECTS points) or equivalent in civil, mechanical or electrical engineering, geosciences, physics, applied mathematics, computer sciences or related fields
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At the Professorship of Solid Mechanics (SMEC) in the Institute for Building Materials at ETH Zurich, we aim to understand how materials deform, degrade, break, and ultimately fail. Our research is