For the first time, the CiS Research Institute will be exhibiting at the Asia Photonics Expo (APE) in Singapore. The leading photonics exhibition in the ASEAN region will take place from 26th-28th February at Marina Bay Sands, featuring a wide variety of products and technologies in a booming Asian market.
At the special exhibition area Photonics + Europe presented by IVAM, EPIC and W3+, at booth C206, CiS Research Institute will present a selection of its portfolio such as non-dispersive infrared (NDIR) sensor technologies in customized arrangement and wiring or monolithic arrays, photodiodes and arrays with fiber coupling, tilted active areas or silicon vias as well as avalanche photodiodes with enhanced blue and ultraviolet sensitivity or hybrid silicon strain sensors. For all technologies in the exhibition, the CiS Research Institute offers a closed value chain from design and development to small series production.
Another highlight is the lecture by Prof. Thomas Ortlepp on 27th February 2025 in the Technical Theatre of the Sands Expo and Conventions Centre. The title of his presentation is “Photonic Quantum Sensor Based on Diamond NV-Centers – Hybrid Integration and Performance Evaluation” starting at 15:40 as part of the session EUROPE meets ASIA – Innovation in Photonics by W3+, IVAM & EPIC.
» Infosheet: Fast infrared emitter array (FIRE)
» Infosheet: Highly sensitive low-noise blue-violet avalanche photodiodes (BVAPD)
» Infosheet: Hybrid silicon strain sensors (SiDMeses)
» Infosheet: Optical magnetic field sensor with diamond (Diaquantfab)
The research and development work described in the following research projects was funded by the Federal Ministry for Economic Affairs and Climate Action (BMWK):
Fast infrared emitter array (FIRE)
Funding code: 49MF220020
Highly sensitive low-noise blue-violet avalanche photodiodes (BVAPD)
Funding code: 49MF200098
Improving the stability of hybrid silicon strain sensors (SiDMeses)
Funding code: 49MF200061
Standardizations in the production and processing of quantum materials using the example of NV color centers in diamond for the realization of a high-precision quantum effects-based diamond amperemeter for electron detection (Diaquantfab)
FKZ: 13N14984 – funded by BMBF
