Researchers at Brown University and Osaka University have developed a technique to polarize light for terahertz waves using a new type of beamsplitter made from stacks of spaced metal plates.
The Naval Research Laboratory (NRL) has utilized a new technique to enhance the precision of LiDAR (light detection and ranging) instruments to see through objects and ground features obscured by foliage.
Cornell University researchers have engineered a new kind of environmentally-stable fiber laser that generates high-power ultrashort light pulses, opening new possibilities and applications for the fiber source. By Daryl Lovell
Researchers at the Agency for Science, Technology and Research (A*STAR) in Singapore have developed a new technique to fabricate hybrid silicon lasers that is considered more economical than current standard manufacturing methods.
Researchers at Royal Melbourne Institute of Technology (RMIT), working in collaboration with counterparts at Beijing Institute of Technology (BIT), have developed the world's thinnest nanometric hologram, making it possible for the first time to integrate 3D holography with smartphones and wearable devices.
Scientists at NASA’s Goddard Space Flight Center are developing the world's first space-based sodium LIDAR (Light Detection And Ranging) instrument to study the nature and dynamics of the mesosphere, the poorly understood middle layer of the Earth's atmosphere, which lies 40-100 miles above Earth’s surface and separates the planet from the vacuum of space.
Scientists at Ecole Polytechnique Fédérale de Lausanne (EPFL) have successfully demonstrated that cooling a mechanical oscillator close to its quantum ground state will turn it into a quantum reservoir that can shape the states of microwave photons in a superconducting circuit. It's the latest attempt to harness microwaves for quantum information processing.
This year at Photonics West, Dan Ford with the Ophir Photonics Group talked to us about the importance of achieving laser consistency.
Jeff Briton and Dragan Grubsic spoke to us about some of the challenges involved in operating pulsed laser diodes and avalanche photodiodes in LIDAR for the automotive and sensor markets.
In this video, Jimmy Green, an OEM Specialist, shares how Ophir Photonics assisted a lasik surgery company replace a plastic mode burn pre-test with an accurate laser measurement device.
This video describes how laser beam profiling with Ophir Photonics’ BeamGage showed why two different lasers running at the same power output produced different results.
In this video, Jimmy Green, an Ophir Photonics OEM Specialist, discusses an OEM solution provided to a customer that allowed for medical laser power development before and after procedures that ensured the proper outcomes.
In this video, Dick Reiley from Ophir Photonics shares how he provided a manufacturer a solution that allowed throughput to increase 4X by reducing the time required for quality inspection. This solution was specifically created for an application measuring laser diodes.
Eric Craven with Ophir Photonics provided us with a tutorial at DCS 2016 on how to co-align visible, near-infrared, and infrared laser beams through the use of a pyroelectric camera array coupled with beam profiling software.
Welcome to Photonics Online's Laser Resource Center — your complete source for laser solutions. Here you'll find everything you need to: learn about the latest developments in laser technology, evaluate offerings from leading laser suppliers, and ultimately select the right laser solution for your project. We cover everything from from diode and fiber lasers to complete laser systems for a broad range of applications. If you can't find exactly what you're looking for here, please feel encouraged to contact us for assistance.