Pulse Selector IOM
A new generation of pulse selectors makes Jenoptik modulators easier to control and increases their efficiency
A new generation of pulse selectors makes Jenoptik modulators easier to control and increases their efficiency
Laser Components, in partnership with its long term partners PicoLas has released a high speed laser diode driver designed for the high speed operation of 'typical' laser diodes for OEM applications.
For the fast and safe position acquisition with sine/cosine encoders and linear systems iC-MR provides the complete position sensor and encoder interface in a system-on-chip solution
Fisba Photonics introduces the HFALDM series of ultrafast and compact analogue laser diode driver modules for TO-housed high power laser diodes
PicoLAS. This compact, base cooled unit is capable of driving diodes up to 3A at 100V and optimised for pulse-repetition rates from single-shot up to 35MHz via the SMC trigger input
Granite Devices has released a new kind of high power laser diode driver for OEM market. Intensify Nx50 has unique parallel connection capability to scale up continuous and pulsed output current rating to 150A and beyond
Elliot Scientific has introduced the ICE Box, an integrated control electronics system for semiconductor lasers from Vescent Photonics
Schleicher Electronic has developed the Position Synchronised Pulse (PSP) control device, consisting of software and the special ProNumeric XSL module, which facilitates highly-accurate time control and complex signal sequences
Ixys has introduced the PCX-7500 high-power laser diode driver/current source
Ixys has introduced the PCX-7401 precision laser diode driver and current source by its Ixys Colorado division
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