Obsidian

Obsidian

2 mJ | 100 Hz

The Obsidian lasers represent a series of compact picosecond lasers designed with the requirements of scientific research and industrial tasks in mind. Their industrial design and compact size ensure high stability of output parameters, making them ideal for integration into OEM equipment.

  • High pulse energy
  • Short pulse duration
  • Adjustable pulse repetition rate
  • Passive Q-switching
  • High peak power (> 2 MW)
  • Guaranteed lifetime > 3×109 pulse
SKU: 002-2-1-1-1-1-1-1 Categories: ,

Description

With a pulse duration of less than 500 ps and pulse energy exceeding 2 mJ, Obsidian lasers demonstrate high efficiency across various applications. Their adjustable repetition rate (1 Hz to 100 Hz) makes them suitable for tasks such as pollution monitoring, DNA analysis and supercontinuum generation.

Additionally, these lasers operate in visible (532 nm) and ultraviolet (355 nm, 266 nm) spectral ranges, enhancing their versatility. Their reliability and adaptability make them an ideal choice for equipment developers integrating advanced laser technologies into their products.

Depending on your needs, the laser can operate in the visible (532 nm) and/or ultraviolet (355 nm, 266 nm) spectral ranges.

Obsidian
Pulse repetition rate, Hz 100
Pulse energy, mJ:
– на 1064nm ≥ 2
– на 532nm ≥ 1
– на 355nm ≥ 0.5
– на 266nm ≥ 0.3
Pulse duration1), ps ≤ 450
Beam diameter, mm 2±0,5
Beam quality (М2) 1) 2), no more than 1.3
Mode composition SLM
Output energy stability (RMS), %, no worse than
– на 1064nm < 1%
– на 532nm < 2%
– на 355nm < 3.5%
– на 266nm < 5%
Cooling system Air cooled
Power supply, W, (220±20 V, 50-60 Hz) ≤ 1000
Laser head with harmonic generator unit (LхWхH), mm 435 х 240 х 150
Power supply unit (LхWхH), mm 400 x 300 x 200

The specification is a subject to change without notice.
1) Specified at 1064 nm
2) Pulse durations from 300 ps up to 950 ps are available on demand.

  • Medicine
  • Surface disinfection
  • Laser-induced breakdown spectroscopy (LIBS)
  • Pollution monitoring
  • Remote sensing
  • Supercontinuum generation
  • Gas mixture ignition
  • Fluorescence
  • DNA analysis

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