Projects from Prof. Dr.-Ing. J. Christoph Scheytt

System and Circuit Technology / Heinz Nixdorf Institut

43 projects were found

SPP 2314 - MLL-basierte Integrierte THz Frequenz-Synthesizers (MINTS) Phase 2

Overarching goal of the project MINTS (phase 1 and 2) is to investigate and demonstrate electronic-photonic THz frequency synthesizer architectures, which conform to the requirements of integration in silicon photonics and Indium Phosphite (InP) photonic technology. Improvement in phase noise performance of the electronic-photonic THz synthesizers ...

Duration: 09/2024 - 08/2027

Funded by: DFG

Contact: Meysam Bahmanian, Vijayalakshmi Surendranath Shroff, M.Sc.

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LiDAR Radar Combi System

LiRaS refers to a novel sensor system which combines the advantages of Radar and LiDAR. The fusion of both technologies promises a high resolution survey of the surrounding and is therefore perfectly suited to support vehicles in public traffic.

Duration: 05/2024 - 04/2027

Funded by: BMBF

Contact: Stephan Kruse, M.Sc., Jan Brockmeier

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.

PhoQS project: Quantum Assisted Sensor Systems

In this research project, a quantum-assisted lidar and photonic radar system will be built. For this purpose, a sensor transmit signal is modulated onto a CW laser signal, which is then transmitted directly (lidar) or after electro-optical conversion and an optional frequency multiplication (radar). In the case of photonic radar, the received ...

Duration: 07/2023 - 12/2024

Contact: Stephan Kruse, M.Sc.

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RadiOptics - EXIST Business Start-up Grant: RadiOptics

The goal of the RadiOptics project is to commercialize the next generation of microwave signal generators using a mode-locked laser (MLL). MLLs can generate a low-noise optical reference clock which have better precision in time unit measurement by orders of magnitude. The optical pulses of MLLs, however, cannot simply be used in a conventional ...

Duration: 06/2023 - 11/2024

Funded by: EU, BMWK, ESF

Contact: Dr Peter Hertenstein

MID4automative: Mechatronic Integrated Devices for Automotive Radar Systems

Novel and innovative technologies like automated and autonomous driving will provide solutions to pressing global issues related to traffic. Autonomous cars will contribute by optimizing traffic flows, resulting in a more efficient use of energy resources and infrastructure. In addition, they ensure better traffic regulation, which results in fewer ...

Duration: 03/2023 - 02/2026

Funded by: BMBF

Contact: Stephan Kruse, M.Sc.

TRR 142 - Compact high performance photon pair source using ultrafast hybrid modulators based on CMOS and LNOI (C11*)

The project aims to study and demonstrate miniaturized sources of decorrelated photon pairs with high repetition rate. The goal will be achieved by jointly integrating high-bandwidth electro-optic modulators, and a specifically tailored parametric down-conversion (PDC) section, both in a lithium-niobate-on-insulator (LNOI) platform. To obtain ...

Duration: 01/2022 - 12/2025

Funded by: DFG

Contact: Christian Kress, M.Sc.

PhoQuant: Photonic Quantum Computing - Quantum computing evaluation platform

When a sufficient number of quantum particles are interconnected, quantum computers can handle tasks that are unsolvable for classical computers. This – among other unique selling points – is a major advantage of photonic platforms: Integrated architectures and sophisticated manufacturing processes offer an enormous scaling potential. The aim of ...

Duration: 01/2022 - 12/2026

Funded by: BMBF

Contact: Prof. Dr. Christine Silberhorn, Dr. Benjamin Brecht

Quantum Photonic Technology Education – Professional training for platform-independent and photonic quantum computing

qp-tech.edu started in 2022. It is funded by the Federal Ministry of Education and Research (BMBF). Its goal is to develop a learning program for the industry to get familiar with quantum science. At the department of Computer Science of Paderborn University, we develop the related part to computer science. More information on the project is to be ...

Duration: 01/2022 - 12/2024

Funded by: BMBF