TCSPC Module provides time resolution of 90 ps.
Press Release Summary:
February 6, 2013 - Combining SPD_A_M2 Single Photon Counter and TCSPC technique, LynXÃ©a provides lifetime and time-resolved measurements of any low-level-of-light and fast events in near infrared.Â Unit delivers measurements from 0–250 ns at up to 0.4 million counts/sec. IntegratingÂ 2 independent and identical Geiger-mode InGaAs avalanche photodiodes with Time to Digital Converter, moduleÂ eliminates need for external computer plug-in counting cards. Plug-and-playÂ PC connection is providedÂ via USB 2.0 interface.
Original Press Release
AUREA Technology Launches LynXéa Its New TCSPC Module at Photonics West 2013 - booth # 1123
Press release date: February 5, 2013
The LynXéa fully integrated in the same box, two independent and identical high-photon-detection-efficiency Geiger-mode InGaAs avalanche photodiodes with a Time to Digital Converter. Thus, it does not require any external computer plug-in counting cards.
In addition to its elegant and ergonomic front panel display, the LynXéa provides plug-and-play Personal Computer connection via its high-speed USB 2.0 interface. It is controlled by its user-friendly graphical user interface software, which enables the measurement parameters set up and adjustment, and also the display and saving of the measurements curves, histograms and data.
About AUREA Technology
AUREA Technology designs and manufactures a new generation of high-performance and easy-to-use Single Photon Counting modules that enable worldwide scientists and engineers to measure very-low-light-level down to a single photon. This superior photon detection allows them to achieve outstanding results, and remain at the cutting edge of their field. AUREA Technology works closely with its scientific and industrial customers to meet the photon counting challenges of today and tomorrow in the biotechnology, nanotechnology, life sciences, optical networking, bio-medical, chemistry, environmental and aeronautics industries.
Contact: Mr. Jerome Prieur firstname.lastname@example.org