Sort by
Refine Your Search
-
Listed
-
Country
-
Field
-
or manipulation principles Foundational understanding of advanced acoustic theories, including nonlinear, multimodal, or metamaterial-based phenomena Foundation in signal acquisition, data analysis, and imaging
-
within the IAP’s core expertise in photonics (microwave physics, laser physics, nonlinear optics, biophotonics). The program should create new synergies within the existing research areas at the Institute
-
of nonlinear and quantum-optical devices and integrated circuits, allowing control of photonic signals with light of very low intensity (down to the single-photon level) and on length scales of only a few
-
integrated systems, where electronics and photonics converge for applications such as optical signal routing in large-scale server networks, face challenges in thermal management due to temperature-sensitive
-
and networks, and more. The selected candidate will conduct experimental research activities, which may include the modeling and demonstration of linear and nonlinear microwave devices and circuits
-
exploitation of physical parallelism, from the realization of stronger all-optical nonlinearities and scalable synaptic devices to the design of efficient photonic memory architectures to support neuromorphic
-
such as quantum and nonlinear optics, biology, and chemistry. This interaction is linked to the phenomenon of Rabi splitting, which occurs when light photons strongly couple with excitons in a material
-
are: nanotechnology, spintronics, opto-electronics, renewable power, integrated electrical/biological/optical circuits and systems, image processing and analysis, embedded DSP, digital design, logic synthesis, computer
-
platforms (cold atoms or warm vapor), photonic systems (including nonlinear crystal sources and quantum optics), and other hardware relevant to quantum networking, sensing, imaging, metrology, and quantum
-
in Fall 2026 at the rank of Assistant Professor. We seek an outstanding candidate with expertise in experimental light-matter interactions and nonlinear optics/photonics, with an emphasis on ultrafast