Hamamatsu to distribute Energetiq’s LDLS products
Energetiq Technology has announced that starting on 1 October 2018, Hamamatsu will distribute the company’s laser-driven light sources (LDLS) around the globe
Energetiq Technology has announced that starting on 1 October 2018, Hamamatsu will distribute the company’s laser-driven light sources (LDLS) around the globe
Hamamatsu will be introducing its new range of silicon photomultipliers (SiPMs), including peak-shifted multi-pixel photon counters (MPPCs) and modules, hole wire bonding MPPCs, the fourth generation of its VUV-MPPC (VUV4) and a new high voltage power supply which is optimised specifically for the firm’s comprehensive line-up. These MPPCs feature a new structure which significantly enhances sensitivity in the NIR region, making them ideal for applications such as industrial lidar applications, distance measurement, radiation monitoring and medical imaging.
Hamamatsu Photonics is set to acquire Energetiq Technology, a manufacturer of laser driven light sources and extreme ultraviolet light sources, for $42 million
Hamamatsu will introduce its latest range of high reliability, key components for lidar such as pulsed laser diodes and photosensors including PDs, APDs and SiPMs
Hamamatsu Photonics has developed the S13720 series, a new range of MPPC silicon photomultipliers (SiPMs)
A world-leading manufacturer of optoelectronic components and systems. All products are designed to cover the entire optical spectrum and provide solutions for a wide variety of applications including medical and industrial fields.
The Graduate School for the Creation of New Photonics Industries, Toyota Motor Corporation and Hamamatsu Photonics have announced the discovery of a new efficient heating mechanism for fusion fuel by irradiating opposed two beams in three steps
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The Research Foundation for Opto-Science and Technology hosted the first international symposium on advanced photonics on the 13 - 14 April 2016, as part of Hamamatsu city's continuing effort to distinguish itself as a preeminent photonics city
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Illustration of a three-dimensional crystal with various types of confining centres. (a) Crystal with four confining centres, each trapping waves (yellow) in all three dimensions simultaneously. (b) Crystal with a linear confining centre where waves can propagate in one dimension, analogous to an optical fibre. (c) Crystal with a planar confining centre where waves can propagate in two dimensions, analogous to a 2D electron gas. (Image: Vos et al.)
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