Oxford Lasers Imaging Division produces high-speed imaging systems for particle, droplet and bubble size measurement, spray pattern analysis and flow visualization. Our advanced systems let you see what's really happening.
We supply fully automated laser micromachining systems for laser drilling, cutting, marking and micro machining. Our sub-contract laser micromachining facilities are available for any type of job from product development through to short-order jobs.
Proudly supplying Industry and Universities with Laser Micromachining systems and Imaging systems since 1977. Our dedicated and experienced team are available to answer your questions.
contact us for more information. read more »
Spray pattern and plume geometry measurement for Nasal and MDI sprays. The Envision QC system takes a series of images of the spray plume and calculates spray cone angle, spray reach or spray pattern. read more »
The ProbeDrill 355 is specially designed for production of probe cards. With the ability to drill micro-holes down to 50 microns diameter in all probe card materials, the ProbeDrill is the answer to current and future production needs. read more »
| Downloads | Size |
|---|---|
| ProbeDrill 355 Probe Card Drilling System | 956.24 KB |
We are delighted to announce the launch of our new high speed imaging laser - the Firefly.
Designed from the ground up to be a versatile, powerful illumination source for many high speed imaging tasks, including PIV, flow visualisation, spray patternation, weld imaging and particle sizing. With pulse durations as short as 500ns, and repetition frequency up to 10kHz, the laser enhances your high-speed camera's capabilities. read more »
Oxford Lasers is proud to announce our 30th Anniversary. We incorporated in October 1977 to produce Copper Vapour Lasers (CVL) and have since diversified into micromachining and imaging systems. read more »
A fibre optic connector was manufactured from a ceramic substrate. The tapered holes were fabricated with very high precision at high process speeds. read more »
