Pro­jects

The PhoQS is characterised by its interdisciplinary structure and the close cooperation of numerous specialised working groups. This diversity makes it possible to work on projects from a wide range of research and application fields. The focus is on innovative approaches that combine basic research and applied sciences. 
Depending on the issue and objective, PhoQS integrates expertise from the fields of physics, electrical engineering, computer science and mathematics in order to tackle complex challenges and develop new solutions.

PhoQS mem­ber pro­jects

70 projects were found

ML4Q-2_E1

Duration: 06/2026 - 12/2026

ML4Q-2_C2.3

Duration: 01/2026 - 12/2032

Max Planck School of Photonics Auslauffinanzierung

Duration: 10/2025 - 10/2026

Max Planck School of Photonics II

Duration: 10/2025 - 12/2032

Maßgeschneiderte Domänenstrukturen in ferroelektrischen Heterostrukturen

Dieses Teilprojekt der DFG Forschungsgruppe FOR5044 beschäftigt sich mit der Untersuchung und Herstellung von optischen Wellenleiterstrukturen und von neuartigen ferroelektrischen Heterostrukturen mittels Festköperbondings, sowie dem Maßschneidern von Domänenstrukturen in solchen Systemen. Heterostrukturen und deren Grenzflächen, wie z.B. in ...

Duration: 08/2025 - 07/2029

Max Planck School of Photonics

Duration: 01/2025 - 09/2025

European Photonic Quantum Computer

Duration: 01/2024 - 12/2026

Photonic System Engineering with Microcombs

Duration: 10/2023 - 09/2027

PhoQS project: Modelling and Optimization of Photonic Wirebonds

High-quality photonic interconnects enable technological advances, both in optical data transmission and in quantum research projects. In this research project, optical broadband coupling methods will be investigated. A nano-precise 3D printer can be used to fabricate structures for photonic interfaces. Important work packages of this project ...

Duration: 09/2023 - 12/2024

Contact: Christian Kress, M.Sc., Martin Miroslavov Mihaylov, M.Sc.

PhoQS project: Quantum photonic systems in silicon nitride technology

In this research project, the feasibility of integration of quantum optic components, which are used in photonic quantum computers and sensors, in commercially available silicon nitride technology is investigated.Silicon nitride is widely used in highly integrated CMOS technologies and therefore, it allows mass production of photonic components ...

Duration: 07/2023 - 12/2024

Contact: Tobias Schwabe, M.Sc.