Menlo Systems introduced its Tera ASOPS tool, which combines ASynchronous OPtical Sampling (ASOPS) technology with the latest broadband THz devices
Avantes produces, develops and sells products in the field of fibre optic spectroscopy, such as spectrometers, light sources, software, fibre optics and accessories, for applications in industrial, chemical, and biomedical fields.
Wavelength Electronics designs and manufactures robust laser diode drivers and temperature controllers for OEM and research. Our ultrastable, high precision components are used widely in a variety of optical applications.
Ocean Insight is the inventor of the world’s first miniature spectrometer and a global leader in photonics for research, life sciences, quality assurance, education and OEM applications.
GL Optic has launched the GL Spectrolux, a handheld spectrometer that sets new price standards
The portable FTIR spectrometer (Model 102) - also known as the micro FTIR - from D&P Instruments, is a passive-mode FTIR spectrometer which measures the radiation emitted by an object itself
The new GL Spectis 1.0 Touch FL spectrometer from GL Optic can measure changes in luminous flux (flicker) over a signal range of 0.1Hz to 12.5kHz for most light sources
Ibsen Photonics, a provider of fused silica transmission gratings and industrial grade spectrometer modules, has introduced a new line of OEM electronics for its spectrometers - called DISB
The new AvaSpec-Her spectrometer from Avantes is suitable for applications that require high resolution, high sensitivity and USB3 or Ethernet interfaces
Princeton Instruments has launched the Fergie spectroscopy system, a fully integrated, aberration-free spectrograph with a built-in, low-noise, cooled detector
Organoid imaged with Andor’s desktop confocal microscope system, the BC43. Credit: Andor
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
