1. Ferdinand-Braun-Institut
  2. Termine
  3. EQTC 2023

EQTC 2023

Konferenz & Ausstellung: 16.-20.10.2023, Messe Hannover

Das Ferdinand-Braun-Institut zeigt seine Entwicklungen und Module auf der European Quantum Technologies Conference 2023 am Berlin-Brandenburger Gemeinschaftsstand (F08-F10). Weitere Details finden Sie in unserer Presseinformation.

Auf der Konferenz stellen Wissenschaftler*innen aus dem FBH und den Joint Labs mit der HU Berlin aktuelle Ergebnisse und Entwicklungen in verschiedenen Beiträgen vor:

Talk
Laura Orphal-Kobin (HU): Optically coherent NV defect centers in diamond nanostructures for enhanced entanglement generation

Poster - Session am 18.10.2023

  • Machine learning based inverse design of semiconductor laser components using low-data-demanding algorithms
  • 2D and 3D FDTD Simulations of Bragg gratings in GaAs-based Ridge Waveguides
  • Generating entangled photonic resource states for quantum network applications with color centers in diamond
  • Zero-Magnetic Field Quantum Control and Coherence Measurements of a Tin-Vacancy Color Center in a Diamond Nanopillar as a Spin-Photon Interface
  • Magnetic field camera based on infrared absorption ODMR mediated by diamond NV centers
  • Development of a Micro-Integrated Optically Pumped Magnetometer for Magnetomyography in Space
  • Miniaturized crossed beam optical dipole trap and enabling technologies for compact atom-based quantum sensors
  • Bragg Grating Based Frequency Reference Module for Operation in Quantum Technology Applications
  • Trade-off design considerations for laser systems for high-end quantum sensor applications
  • Fabrication of suspended “sawfish” photonic crystal cavities in diamond

Poster - Session am 19.10.2023

  • Edge emitting semiconductor laser emitting at 626 nm and 619 nm for usage in quantum information processing
  • A portable warm vapor memory
  • Monolithic Integration of Extended Cavity Diode Lasers at 778 nm and 1064 nm
  • Micro-integrated Diode Laser Modules for Operation in Quantum Technology Applications
  • Extensive study of magneto-optical and optical properties of Cd1−xMnxTe between 675 nm and 1025 nm
  • Towards a Spaceborne Two-Photon Rubidium Frequency Reference