M Squared Lasers are a leading developer of photonics and quantum technology. We serve scientists, cutting-edge corporations and top universities. From idea, to lab, to real life - we play a part in every step of the journey.
Our light-based applications are used in a number of fields, including quantum technology, biophotonics and chemical sensing. Our products are put to use in a wide-range of sectors including advanced manufacturing, oil and gas research, space technology and the medical sector – where cross-sector partnerships have led to breakthroughs in areas as diverse as dementia research, cancer diagnosis and whiskey maturation.
We’ve spent decades designing and manufacturing laser systems and have expertise in CW to fs, and DUV to THz wavelengths in applications spanning fundamental research to 24/7 semiconductor metrology.
Working closely with customers and partners is important to us. We talk research rather than products first and no matter how challenging the task, we’ll embrace it - we never stop listening, innovating, learning and improving.
Our dedication to helping our customers and partners excel is underpinned by our guiding philosophy ‘Dependable Innovation’ - an approach that ensures we develop transformative products that balance innovative design and best practice production.
M Squared's Advanced Laser Technology and the Commercialization of the Quantum Computer
Titanium-Sapphire (Ti:Sapphire) Lasers - Properties and Applications
Equinox: An Unparalleled Single Frequency Green Laser
New, revolutionary way to measure laser light
This product profile describes the properties and applications of the ProMetric® I-SC Solution Imaging Colorimeter.
The Filmetrics F20 benchtop film thickness measurement tool is a general purpose instrument for measuring thickness and refractive index.
Dynamic characterization of MEMs devices is achieved by Micro System Analyzer MSA-650 IRIS.
Dr. Keith Paulsen
AZoOptics speaks to Dr. Keith Paulsen about the importance of breast cancer detection and the introduction of his team's deep-learning algorithm that associates spatial images of tissue optical properties with optical signal patterns measured during an imaging experiment or patient exam.
Prof. Simon Scheuring & Dr. Alma P. Perrino
AZoOptics speaks to Prof. Simon Scheuring & Dr. Alma P. Perrino about their recent research using a new line-scanning high-speed atomic force microscopy technique. The method helps characterize the single-molecule kinetics of wild-type bR (bR-WT) exposed to continuous light and short light pulses.
R. Bruce Weisman
AZoOptics interviews R. Bruce Weisman from Rice University in Texas, US, who has discovered fluorescence from silicon nanoparticles in cement and how it can be used to reveal early signs of damage in concrete structures.