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After receiving a $14.9 million contract from the US Department of Defense (DOD) last month to study the pulse laser effect, the University of Rochester recently received nearly $18 million in funding from the National Science Foundation (NSF) for the key technology design and prototype of the EP-OPAL, also known as the OMEGA EP coupled optical parametric amplifier line (OPAL).EP-OPAL is a new fac...
On May 6th, NUBURU, a leading enterprise in high-power and high brightness industrial blue laser technology, announced that the company has been awarded a second phase contract worth $850000 by the National Aeronautics and Space Administration (NASA) to promote blue laser power transmission technology as a unique solution that significantly reduces the size and weight of equipment required for lun...
Los Alamos National Laboratory (LANL) has developed a method for a quantum light emitter that stacks two different atomically thin materials together to achieve a light source that produces a stream of circularly polarized single photons. These light sources can in turn be used for a variety of quantum information and communication applications.According to Los Alamos researcher Han Htoon, the wor...
A new article published in Optoelectronic Science reviews the basic principles and applications of optical capture of optical nanoparticles. Optical nanoparticles are one of the key elements in photonics. They can not only perform optical imaging on various systems, but also serve as highly sensitive remote sensors.Recently, the success of optical tweezers in separating and manipulating individual...
CU Boulder published a study in Optical Letters demonstrating a new high-speed laser guidance method for imaging applications, using a fluid scanner built around an electrowetting prism to replace traditional mechanical components."Most laser scanners today use mechanical mirrors to steer beams of light," said Darwin Quiroz from CU Boulder."Our approach replaces that with a transmissive, non-mecha...