Laser by Monocrom

Note: Your Quotation Request will be directed to Monocrom.

The LQ-527-12 from Monocrom is a Diode Pumped Solid State Laser that operates at a wavelength of 527 nm. It delivers a pulse energy of 800 - 1000 μJ with a pulse width of 1.67 μs and pulse-to-pulse energy stability of up to 95%. This laser has an effective pulse duration of 1.84 μs and a repetition rate of 100 Hz. It has a far-field beam divergence of 5 mrad and a beam quality factor Mof 1.5.

The LQ-527-12 has a stabilization time of 10 s and a beam point stability of up to 50 μrad. It is available in a bar package that measures 191 x 80 x 56.5 mm and is ideal for retina regeneration, material processing, LIBS/RAMAN spectroscopy, LiDAR, and wind LiDAR applications.

Product Specifications View similar products

Product Details

  • Part Number
  • Manufacturer
  • Description
    527 nm Diode Pumped Solid State Laser for LiDAR & Retina Regeneration Applications

General Parameters

  • Configuration
    Laser Head with Control Unit(Integrated)
  • Type
    Laser System
  • Technology
    DPSS Laser
  • Operation Mode
    Pulsed Laser
  • Wavelength
    527 nm
  • Tunable
  • Fiber Coupled
  • Laser Color
  • Pulse Energy
    800 to 1000 µJ
  • Pulse Width
    1.53 to 2.06 µs
  • Application
    Material Processing, LIBS/RAMAR Spectroscopy, LIDAR & WIND LIDAR
  • Repetition Rate
    99 to 200 Hz
  • Application Industry
    Industrial (Material Processing), Scientific, LIDAR & Sensing
  • Beam Divergence
    4 to 6 mrad (Far Field)
  • Beam Quality Factor (M2)
    1.5 to 1.6
  • Laser Class
    Class 4
  • Pointing Stability
    50 µrad
  • Pulse Energy
    800 to 1000 µJ
  • Package

Physical Properties

  • Dimension
    191 x 80 x 56.5 mm

Environmental Conditions

  • Operating Temperature
    22 to 28 Degree C

Technical Documents

Click to view more product details on manufacturer's website
Need Help Finding a Product?

Looking for a Product or Supplier?

Let us know what you need, we can help find products that meet your requirement.