1. Spectroscopy
    Lasers for excitation in range from UV to NIR for Photoluminescence & Raman studies
  2. Nanostructuring
    Lasers & systems for producing Nano-scale structures using 2-Photon Polymerization technique
  3. Microstructuring
    Lasers systems for engraving, drilling and creating micro-patterns on various materials
  4. Photonics
    Lasers & cameras for generating, controlling, and detecting photons in field of Nanophotonics, Microscopy & Imaging.
  5. Photo Voltaic
    Photo Voltaic
    Tools for optical & electrical characterization of semiconductors
  6. Photo Voltaic
    Photo Voltaic
    Tools for characterization of solar cells for research and development of clean energy.
  7. Spectroscopy
    Study of time resolved dynamics in field of photochemistry and photobiology
  8. Life Science
    Life Science
    Lasers for study of Science of life & living organisms
  9. Life Science
    Life Science
    Lasers for study of Science of life & living organisms
  10. Photonics
    Cutting edge tools for application in field of aerospace, agriculture, biomedicine, defence, energy, information technology and many more
Precision Optics

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 ​​​ Un-Coated Optics
Materials – polished
Fused Silica (all Grades), Schott N-BK7 and equivalent, Schott Zerodur and equivalents, Calcium Fluoride (CaF2) , Nd:YLF and a wide range of other materials.

BK7-Mirror Substrate
BK7-Window Substrate
Spherical Mirrors
Fused Silica
Mirror Substrate
Fused Silica
Window Substrate
 ​​​​​ Coated Optics
Materials – Coated
Fused Silica (all Grades), Schott N-BK7 and equivalent, Schott Zerodur and equivalents, Calcium Fluoride (CaF2) , Nd:YLF, Nd:YAG, Al2O3 (Sapphire) and a wide range of other materials.

Ultrafast Optics
Dielectric Mirror-45deg
Beam Sampler- 45 deg
Harmonic Seperator
AR Coated window-O deg
Dielectric Mirror- 0deg
BeamSplitter -
0deg & 45 deg
Metal Coated Mirror
 ​​​​​​​ Polarisation Optics
Cube Polarizers
Ultrafast Polarizers
 ​​​​​​Reference Flats
 ​​​​​​Reference Flats
Manx Precision Optics (MPO)is a family-owned manufacturer of high precision optics. Founded in 2013, the company employs an experienced workforce with all senior employees having over 20 years experience in precision optics manufacture.

Manx Precision Optics’ state of-the-art production facility is based in an Isle of Man Government owned high-tech industrial park and comprises over 5000ft2 in manufacturing space in close proximity to the Isle of Man Airport.
To ensure full traceability and the highest quality standards, Manx Precision Optics’manufacturing processes are all ISO 9001:2008 certified.
Having the full manufacturing process from shaping, grinding and polishing to optical coating (e-beam and sputter coating) and assembly in-house allows Manx Precision Optics to have full control of all aspects of precision optics manufacture.

Polishing / Assembly Capabilities
  • Laser Optics up to 300mm diameter, flat and spherical substrates,
  • matched wedges for ultrafast beam control, optically contacted,
  • High-LIDT cube polarisers up to 3″ cube size (larger upon request),
  • Solid Etalons, VIPA, Etalons, Air-spaced Etalons

Coating Capabilities
  • Electron-beam evaporated Coatings,
  • Sputtered Coatings,
  • Optical coatings from 190nm- 2500nm,
  • Dielectric and Metal Coatings Coated substrate sizes up to 300mm diameter or 200mm x 300mm rectangular,
  • Coatings for ultrafast applications, supplied with measured GDD curve.

Typical Specifications
  • Flatness: up to λ/20, for etalons up to λ/100
  • Better than 10-5 scratch-dig laser grade or ISO equivalent
  • Diameter tolerances: catalogue standard: +0/-0.25mm, tighter tolerances possible
  • Thickness tolerance: catalogue standard: +/- 0.25mm, tighther tolerances possible

Sun Spectrum Simulation for IV Characterization

Sensor Characterizationsmm
(CG, PTC, QE measurment)

Spectral Response &
QE  Measurement

Solar Simulator with I-V Measurement enables researchers to simulate Sun intensity and test the solar cells in the laboratory environment. This helps in optmization of the physical & chemical properties of the solar cell to increase the performance in the real world environment. 
MVIS systems allows the calibration and characterization of the imaging sensor such as CCD's and CMOS devices. m
The system allows to measure the parameters such as Photon Transfer Curve (PTC), conversion Gain (CG) and Quantum Efficiency (QE) of the packaged device.
QE measurment tool allows researcher to measure the quantum efficiency and spectral reponse of the solar cell and determine the performance under real world environments. New technologies and materials are being developed by researchers to provide clean energy at an offordable cost.mm