Count photon counters
The dynamic range of single photon detectors is an important parameter. LASER COMPONENTS has reduced the dead time of the COUNT photon counters from 55ns to 42ns, resulting in a maximum count rate of more than 23MHz
The dynamic range of single photon detectors is an important parameter. LASER COMPONENTS has reduced the dead time of the COUNT photon counters from 55ns to 42ns, resulting in a maximum count rate of more than 23MHz
The new LMM-274 from InfraTec now offers a low-power detector with four channels, so that three gases can be measured simultaneously and a reference channel is also available
LASER COMPONENTS has now released a new iteration of the LCSA and LCIA APD modules, called the A-CUBE
Opto Diode, a division of ITW, introduces the SXUVPS4, a new multi-element detector with a 5 square milimetre active area in a quadrant configuration
IDQ's ID280 series detection system bpasts quantum efficiencies higher than 50 per cent, count rates of up to 20MHz, dark counts <50Hz, jitter below 70ps and no afterpulsing
The dynamic range of single photon detectors is an important parameter. Laser Components has reduced the dead time of the Count photon counters down to 42 ns - the previous dead time was 55ns
Ophir Photonics, global leader in precision laser measurement equipment and a Newport Corporation brand, today announced the F-PE80BF-DIF-C, the newest member of Ophir's PE-C line of pyroelectric pulsed sensors
Meta Vision Systems announces the launch of a new laser sensor at the forthcoming Fabtech show in Atlanta, Georgia, to be held from 11 to 13 November 2014
Opto Diode, a division of ITW, has released the SXUV20HS1, a high-speed photodiode with a 5mm circular active area
Ophir Photonics today announced the 1000W-BB-120 Thermal Sensor for Very Large Aperture Lasers, the newest member of the company's line of high damage threshold laser sensors
As microscopes become ever more powerful, a growing band of businesses are racing to make the latest technologies more accessible and more affordable, reports Rebecca Pool
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.)
Newly discovered fundamental rules have been embedded into software to dramatically optimise the design of photonic integrated circuits