Master Oscillator Power Amplifier Laser System

A number of applications like high precision ranging and imaging, LIDAR, micro-materials processing, UV spectroscopy in chemistry and biochemistry will benefit from energetic (300-500uJ) high beam quality sub-nanosecond (~200ps) laser pulses. To address the needs of these applications the new MOPA microlasers from STANDA utilize Master Oscillator Power Amplifier platform that combines company's renowned microlaser oscillators together with a highly efficient amplifying stage developed recently. Due to the MOPA configuration the unique spatial and temporal characteristics of the microlasers are preserved while their output power is raised to the multiwatt level. All Master Oscillators as well as Power Amplifiers are produced at Standa facilities.

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We value user working space and always try to fit into the tightest environment of a laboratory set up, measuring device or other equipment. The MOPA series continues the traditions of STA-01 microlasers: being the smallest passively Q-switched DPSS laser on the market without compromise to optical performance. Fiber-coupled pump diodes are housed inside the electronic controller greatly reducing heat load and footprint of the laser head. Pump radiation is delivered via 2m long metal-shielded fiber optic cables enabling convenient integration of the laser system into the user equipment. Due to the high pump and output powers the optimized air cooling or water cooling of laser head is required.

Without compromising their compactness and beam quality the STA-01-MOPA-TH STA&#;01&#;MOPA series lasers can be equipped with second and third harmonic generation crystals for nonlinear frequency conversion. STANDA can offer green and UV lasers with 532 and 355 nm wavelengths accordingly.

If you want to learn more, please visit our website Radiation Detection and Measurement Solutions.

Due to the MOPA configuration different modifications of output parameters are possible. Contact us or find your local Standa if you have laser specification other than given in the table of standard units.

Applications &#; Marking &#; Electronics (PCB Processing) &#; Biomedical &#; Instrumentation &#; LIDAR and Laser Ranging &#; Sensing and Monitoring &#; Micro dissection &#; Semiconductor Inspection &#; Material processing &#; MALDI-TOF &#; TiSa, OPO pumping &#; Laser Induced Fluorescence (LIF) &#; Spectroscopy (LIBS, LIPS and PIV) &#; Micromachining &#; Nonlinear Optics (Harmonics and Supercontinuum Generation) &#; Diamond drilling (SiC) and other hard materials




Models STA-01-MOPA-1 STA-01-MOPA-2 STA-01-MOPA-3 STA-01-MOPA-4 STA-01-MOPA-SH-1 STA-01-MOPA-SH-2 STA-01-MOPA-SH-3 STA-01-MOPA-SH-4 STA-01-MOPA-TH-1 STA-01-MOPA-TH-2 STA-01-MOPA-TH-3 STA-01-MOPA-TH-4 Wavelength, nm 532 355 Average Output Power (max), W 3 2.5 0.2 5 1.5 1.2 0.100 2.5 0.75 0.7 0.050 1.250 Pulse Energy, µJ 300 50 200 100 150 10 100 50 75 5 50 25 Pulse Width (FWHM), ns 0.8 0.4 0.2 0.5 0.7 0.4 0.2 0.5 0.5 0.4 0.2 0.7 Repetition Rate (max), kHz 10 50 1 50 10 50 1 50 10 50 1 50 Peak Power, MW up to 1.2 Beam Divergence (1/e2, full angle), mrad < 6 Pulse Spectral Structure SLM Spatial Mode TEM00 Beam Propagation Factor M2 < 1.2 Polarization Ratio (linear) > 100 : 1 Power Stability RMS, % <1% Operating Voltage, V AC 100 &#; 230 Power Consumption, W <100 Operating Temperature, °C 22±11, non-condensing Interfaces USB, External Trigger (TTL rising edge) Dimensions of Laser Head, mm 79 (W) x 37.5 (H) x 75 (L) Dimensions of Controller, mm 471 (W) x 157 (H) x 458 (L) Warranty 12 months Laser Head Cooling Required: 12WSC1 Cooling system Thermal Resistance, K/W &#;0.05 Laser Controller Cooling Provided Required: 12WSC1 Cooling system Provided Required: 12WSC1 Cooling system Provided Required: 12WSC1 Cooling system Thermal Resistance, K/W &#; 0.05 0.05 0.05

1 - Is specified an ambient temperature at which the laser parameters exactly meet the specifications in the table.
Pulse duration of a particular model is factory set to a fixed value from the given range. Contact your Standa representative or Standa directly for more details.
Content and specification are subjects to change without notice.

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The MOPA (Master Oscillator Power-Amplifier) fiber laser/amplifier architecture is used to amplify the output of a seed laser to higher power. The seed incorporated in our MOPA can be configured by the user with different pulse widths and repetition rates according to the desired application. The energy and output power are also user-controlled. Genia Photonics MOPA fiber laser can be used in conjunction with the programmable laser as part of a synchronized laser system. Moreover, it is available as a tunable MOPA fiber laser with all its parameters (wavelength, pulse width, repetition rate) configurable via the graphical user interface. Polarization Maintaining (PM) and Randomly Polarized MOPA lasers are available to suit many different applications from laboratory research to field deployment. The Tunable MOPA fiber laser can be used as slave or master while being synchronized with a Ti:Sa laser. Wavelength availability ranges from 850 nm, 10xx nm, C or L-band or Second Harmonic Generation (SHG) with 532 nm, 765 nm or 792.5 nm.