Omicron BrixXLAB multichannel desktop laser

Monday, 27 June, 2022 | Supplied by: SciTech Pty Ltd


Omicron’s BrixXLAB multichannel desktop lasers, combining BrixX lasers and a standalone desktop housing, are designed to provide researchers with fibre-coupled, high-power illumination possibilities within laboratories.

The four separately controllable laser channels can be equipped with the same or different wavelengths from 375 to 1550 nm (one wavelength per channel) with up to 10 W/channel. This provides flexibility when examining one sample with four different wavelengths or for examining four samples with the same wavelength. High safety is provided via fibre detection per channel, as there is no laser emission if the fibre is not connected.

Due to modern control possibilities via touchscreen, no additional computer is required to control the system. This allows a high level of independency and user-friendliness within laboratory applications. In order to integrate the system into more complex processes, it can also be controlled via the included Windows-based Omicron Control Center software or third-party software.

The product can be applied in fluorescence analysis and as a light source in analytical processes as well as for drug development, such as in photodynamic cancer therapy. To facilitate the exact management of irradiation times when illuminating samples, it has a built-in timer functionality that can either be activated for a single channel or grouped for multiple channels.

Online: www.scitech.com.au
Phone: 03 9480 4999
Related Products

Waters Oasis WAX/GCB and GCB/WAX for PFAS Analysis cartridges

The dual-phase cartridges are designed to simplify and expedite the process of preparing complex...

Hylec Controls packaging materials testing machinery

From tensile strength testers to impact testers, Hylec Controls' comprehensive range of...

Beckman Coulter Life Sciences CytoFLEX nano flow cytometer

The CytoFLEX nano flow cytometer, from Beckman Coulter Life Sciences, is described by the company...


  • All content Copyright © 2024 Westwick-Farrow Pty Ltd