iPRONICS Programmable Photonics is making the computational power of photonics commercially affordable. Founded in 2019 as a spinoff of Universitat Politècnica de València, it was the result of multiple years of research. The team has pioneered the field of programmable photonics and developed the first general-purpose photonic processor capable of programming high-speed light signals on-chip with unprecedented flexibility. iPRONICS processors share a common hardware platform that is reconfigurable by software. This cost-effective solution enables the same hardware to be applied to limitless commercial applications with a voracious appetite for computational power, including 5G communication, data centers, artificial intelligence, autonomous driving, quantum computing and IoT.
iPronics: Making Photonics Viable with Programmable Chips
The Monarc Pro T System turns any microscope into an optically-coupled microscope, enabling in-situ discovery for photoactive catalyst studies.
Discover the NAN™ Electrophysiology focusing nosepiece microscope by Sutter instruments.
The Total Absolute Measurement System (TAMS) unit allows you to choose the right detector for angular-dependent measurements of optical properties of thin and thick samples.
In this interview, AZoOptics speaks with Teledyne Dalsa about the key roles of optics when it comes to Machine Vision Systems.
Dr. Mustafa Kansiz
In this interview conducted at Pittcon 2023 in Philadelphia, Pennsylvania, we spoke to Mustafa Kansiz, Director of Product Management and Marketing at Photothermal Spectroscopy Corp, about O-PTIR, a new and alternative infrared spectroscopy method.
Professors Susmu Noda and Menaka De Zoysa
In a new interview, AZoOptics talks with Professors Susmu Noda and Menaka De Zoysa about their research presenting a new nonmechanical 3D Lidar system.