
Internship or Master Thesis on Quantum-Based Optimization (f/m/x)
Required skills
Job description
ZEISS Group published this listing. We've added our own working-student context below — what this role means for your weekly hours, take-home pay and student visa as a student in Oberkochen, Germany.
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Description provided by ZEISS Group
At ZEISS Corporate Research, we explore and validate future technologies that will shape the next generation of optical and imaging products. We are looking for curious, motivated students who want to actively contribute to next-generation ZEISS products in visual computing. In this role, you will contribute to quantum computation with a focus on developing and implementing an optimization algorithm for optical applications.
Your Role
With us, you have the opportunity to perfectly combine your studies with practical experience while actively contributing to exciting projects. This allows you to gain valuable skills, expand your network, and grow both professionally and personally.
Implementing and evaluating state-of-the-art quantum algorithms (e.g., QAOA, VQE, quantum annealing or others) for an optimization problem in the scope of optical systems
Implement prototypes and demonstrators to evaluate quantum-enhanced optimization concepts for ZEISS applications
Running experiments on quantum simulators or cloud-based quantum hardware, benchmarking performance, and documenting your findings
Collaborating closely with researchers to integrate your results into ongoing research projects
Presenting your work within the team and contributing your ideas to technology evaluations
What We Offer
An opportunity to build the foundation for next-generation products.
Mentorship by experienced PhD-level experts
The possibility to write a Master’s Thesis following an intership
A modern work environment with a mix of remote and on-site days
Your Profile
Enrolled in a Master’s program in computer science, computational physics, quantum information or a related field
Interested in technology evaluation and motivated to work on challenging tasks
Profound understanding of quantum information concepts (e.g. no-cloning theorem, qubits, gate operations) or physics-based simulation
You have a strong background in physical modelling with very good coding skills in Python, Q#, Qiskit or similar
You are willing to collaborate and work in interdisciplinary teams
Fluent in English , knowledge of German is a plus but not required
You are willing to learn and explore with a high degree of initiative and creativity
Your ZEISS Recruiting Team:
Selina SafradinWorking student essentials
What this Tech working student role in Oberkochen means for you — the weekly-hours rules, social-contribution perks, and what international students should check before applying.
Weekly hours
Working students may work up to 20 hours a week during the semester and full-time during the breaks. Staying within this keeps your student status and the Werkstudent benefits.
Working student rulesSocial contributions
Under the Werkstudentenprivileg you're exempt from health, care and unemployment insurance contributions — only pension insurance applies. That leaves more net pay than a regular job.
Check your insuranceInternational students
Non-EU students can work 140 full or 280 half days per year (raised from 120/240 in March 2024). A working student contract usually fits within this — confirm the exact limits printed on your residence permit.
Studying in Germany