Overview
In today’s data-driven quantum and photonics applications, accurately detecting and timing single photons is critical. Systems must not only achieve picosecond-scale resolution, but also handle high event rates with minimal dead time to preserve the information encoded in light. Join Liquid Instruments to explore how a software-defined, FPGA-based time and frequency analyzer enables high-throughput, real-time single-photon measurements for quantum optics and optical communications. A live Q&A session will follow the presentation. Presented by Liquid Instruments.
Attend live for a chance to win a Moku:Go!
In this webinar, we’ll cover:
- How FPGA-based parallel processing enables precise photon counting with picosecond timing resolution
- How to catalog and analyze up to eight independent events and time intervals in real time
- How live histograms, correlation measurements, and analog feedback accelerate quantum and photonics experiments
- How to decode pulse-position modulated (PPM) signals and perform real-time second-order correlation measurements
