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Our group investigates new ways of controlling and confining electromagnetic waves through time as an active design dimension. Rather than engineering wave propagation solely through spatial structures, we develop THz time-varying photonic systems based on subwavelength waveguides, where ultrafast excitations modify the optical properties of a material on the order of 1 in subcycle timescales. This approach enables entirely new wave phenomena, including time reflection, dynamic dispersion engineering, photonic time crystals and the dynamic Casimir effect. The project is jointly supervised within an ETH collaborative initiative, providing the student with regular interaction with the groups of Prof. Dikopoltsev, Prof. Scalari, Prof. Johnson, and the project partners, combining theoretical modeling, device design, and ultrafast THz experiments.
This project will combine advanced numerical modeling with experimental demonstrations to investigate electromagnetic wave propagation in time-varying THz waveguides.
We look forward to receiving your online application in a single merged PDF document, titled with your last name and initials as well as the application date (for example, 20251010_DoeJane_application) in the following order:
Further information about the Institute for Quantum Electronics can be found on our Website. Questions regarding the position should be directed to Alexander Dikopoltsev, [email protected](no applications).
Please note that we exclusively accept applications submitted through our online application portal. Applications via email or postal services will not be considered.
We would like to point out that the pre-selection is carried out by the responsible recruiters and not by artificial intelligence.
ETH Zürich is well known for its excellent education, ground-breaking fundamental research and for implementing its results directly into practice.
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