1. Spectroscopy
    Spectroscopy
    Lasers for excitation in range from UV to NIR for Photoluminescence & Raman studies
  2. Nanostructuring
    Nanostructuring
    Lasers & systems for producing Nano-scale structures using 2-Photon Polymerization technique
  3. Microstructuring
    Microstructuring
    Lasers systems for engraving, drilling and creating micro-patterns on various materials
  4. Photonics
    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
    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
    Photonics
    Cutting edge tools for application in field of aerospace, agriculture, biomedicine, defence, energy, information technology and many more
Lasers

Please select the product 

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Ultrafast lasers​​​​

Models

Pulse width

Average Power

Pulsed Energy

< 400fs

Upto 30W

60µJ upto 100KHz  

SS to 1MHz

DIADEM SERIES: Pulsed / IR-Green-UV     

< 180fs

Upto 20W

Upto 250nJ

80MHz

ALTAIR SERIES:  QCW / 920nm 

< 170fs

1W & 2W

Upto 25nJ

80Mhz 

 

 

 

 

SIRIUS SERIES:  Pulsed / IR-Green-UV   

<10ps

SS to 1MHz

ANTARES SERIES:  QCW / Narrow Linewidth 

<10ps

Upto 40W

upto 0.5µJ

80MHz

Rep Rate

APPLICATIONS

Micromachining

Femtosecond laser microfabrication presents unique capabilities for 3-dimensional integration and microdevice manufacturing. Ultrashort laser pulses now make it possible to fabricate a wide range of biomaterials and implants ranging from cell scaffolds to artificial microvalves

Biophotonics

Every day, new interactions between light and living organisms are discovered. Femtosecond lasers are emerging as a powerful tool in basic biological research. The high peak light intensity generated by a tightly focused, ultrashort, pulse of infrared laser light enables deep tissue imaging within biological samples.

Spectroscopy/Imaging

Ultrafast Laser pulses allows visualization of ultrafast dynamical processes (fluorescence, excited state absorption), in photophysics, chemistry and Biology. The extremely short pulse duration allows one to create, detect and study very short- lived transient chemical reaction intermediates and transition states.
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Single Freqency CW  lasers​​​​   (Linewidth <0.5 MHz)

Spectral Position Stability
​​(pm, +/- 5deg C, 4 hrs)   

Models

Wavlength
​(nm)

Power
​(mW)

Modhop Free Tunning 
(GHZ)

0.65

266, 320, 349, 355, 360

< 200

40 - 50

1.1

442, 515, 523, 532, 607, 
​640, 698

< 2000

30 - 50

2.5

25 - 30 

720, 780, 813, 1064, 
​ 1125

< 3000

APPLICATIONS

APPLICATIONS

Holography

The production of high quality holographic images has always relied on lasers with long coherence length and single mode properties in order to achieve stable interference for the entire exposure time.

Life Science

Applications such as Fine Resolution Spectroscopy, Raman Spectroscopy, Optical Tweezing, Fluorescence Imaging, including Confocal Microscopy, Brillouin Scattering etc requires good ode and beam quality .

Interferometry

Interferometry makes use of interference phenomena for measurement purposes, for example investigation into the flatness of an optical surface. The more coherent the laser beam, or the longer the coherence length, the finer the detail that can be resolved in the interferometer.
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Mid-IR Supercontinuum Source 

Models

Wavlength
​(µm)

Average Power
​(W)

Power Stability
​(%)   

Repetion rate 
(MHZ)


1.9µm - 3.9µm

1.5

  ± 0.5 %   

 4.15 MHz ± 5%

APPLICATIONS

APPLICATIONS

Mid-IR Spectroscopy & Imaging

Mid-IR Laser allows visualization of strong fundamental rotational & vibrational molecular transitions in the mid-IR (2.5-10 μm), making this an extremely useful region of the electromagnetic spectrum for trace gas analysis in environmental or medical monitoring applications​.