Projects from Meysam Bahmanian
SPP 2314; TP: 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
Contact: Meysam Bahmanian, Vijayalakshmi Surendranath Shroff, M.Sc.
SPP 2314 - MLL-based Integrated THz Frequency Synthesizers (MINTS)
In the project MINTS it is planned to investigate and demonstrate electronic-photonic THz frequency synthesizer architectures which conform to the requirements of integration in silicon photonics (SiPh) and/or Indium Phosphite (InP) photonic technology. Building on the excellent spectral properties of mode-locked lasers (MLL) it is the target to ...
Duration: 01/2022 - 12/2024
Contact: Meysam Bahmanian, Vijayalakshmi Surendranath Shroff, M.Sc.
FOR 2863 - Traceable Terahertz Transceivers (B2)
The B2 project of Meteracom focuses on the signal traceability in electronic THz analog transmit and receive frontends, including their functional building blocks for wideband THz signal generation, translation, amplification and sampling. The main objectives in phase II are to expand the transceiver functionalities towards the traceability of ...
Duration: 01/2022 - 12/2024
Contact: Meysam Bahmanian
OFFeDi - Optoelektronischer Frequenzsynthesizer mit Femtosekunden-Diodenlaser
Low jitter signal sources are in widespread use for object detection, navigation systems, and ultra-high speed data communication systems. The jitter of the signal sources is dominated by the reference signal source which is a Surface Acoustic Wave (SAW) or a quartz oscillator. While these reference oscillators are standard for communication ...
Duration: 06/2017 - 05/2021