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Page 5 - N/A DPSS

SLM-1.06 Q-switched solid-state laser
Xiton Photonics GmbH
Single longitudinal and transversal mode emission is achieved by injection-seeding with the narrow-linewidth radiation of a cw micro-chip laser. The lasers provide short output pulses with a duration of ∆ t <12 ns in a diffraction limited beam with M² < 1.2 at a repetition rate of 8 to 15 kHz. The spectral bandwidth ...

Specifications

Avg. Power: 8 W
Wavelength: 1064 nm
Repetition Rate: 8-15kHz
Spatial Mode (M^2): 1.2
Pulse Duration: 12 ns
SLM-213 Q-switched Solid-State Laser
Xiton Photonics GmbH
The SLM-266 is a single frequency all-solid-state laser system for applications in the UV such as optical metrology, calibration of spectrometers and holographic applications. The spectral bandwidth is less than 80MHz is near its theoretical Fourier limit.

Specifications

Avg. Power: 0.1 W
Wavelength: 213 nm
Repetition Rate: 1-20kHz
Spatial Mode (M^2): 1.6
Pulse Duration: 8 ns
SLM-213 Q-switched Solid-State Laser
Xiton Photonics GmbH
The SLM-266 is a single frequency all-solid-state laser system for applications in the UV such as optical metrology, calibration of spectrometers and holographic applications. The spectral bandwidth is less than 80MHz is near its theoretical Fourier limit.

Specifications

Avg. Power: 0.1 W
Wavelength: 213 nm
Repetition Rate: 1-20kHz
Spatial Mode (M^2): 1.6
Pulse Duration: 8 ns
SLM-266 Q-switched Solid-State Laser
Xiton Photonics GmbH
The SLM-266 is a single frequency all-solid-state laser system for applications in the UV such as optical metrology, calibration of spectrometers and holographic applications. The spectral bandwidth is less than 80MHz is near its theoretical Fourier limit.

Specifications

Avg. Power: 0.5 W
Wavelength: 266 nm
Repetition Rate: 1-20kHz
Spatial Mode (M^2): 1.7
Pulse Duration: 10 ns
SLM-355 Q-switched Solid-State Laser
Xiton Photonics GmbH
The SLM-355 is a single frequency all-solid-state laser system for applications in the UV such as optical metrology, calibration of spectrometers and holographic applications. The spectral bandwidth is less than 80MHz is near its theoretical Fourier limit.

Specifications

Avg. Power: 2 W
Wavelength: 355 nm
Repetition Rate: 1-20kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 10 ns
For generating high peak power IR pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. Sub-nanosecond 1064nm pulses are indeed directly generated from the diode pumped passively Q-switched Nd:YAG microchip engine. Microchips are also easy to operate and service ; controllers can be used with ...

Specifications

Avg. Power: 0.14 W
Wavelength: 1064 nm
Repetition Rate: 19-19kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 1 ns
For generating high peak power IR pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. Sub-nanosecond 1064nm pulses are indeed directly generated from the diode pumped passively Q-switched Nd:YAG microchip engine. Microchips are also easy to operate and service ; controllers can be used with ...

Specifications

Avg. Power: 0.3 W
Wavelength: 1064 nm
Repetition Rate: 13-13kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 3 ns
For generating high peak power IR pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. Sub-nanosecond 1064nm pulses are indeed directly generated from the diode pumped passively Q-switched Nd:YAG microchip engine. Microchips are also easy to operate and service ; controllers can be used with ...

Specifications

Avg. Power: 0.04 W
Wavelength: 1064 nm
Repetition Rate: 5-5kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 1 ns
For generating high peak power green pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. The 532nm pulses are produced by harmonic conversion from the IR systems, the same compact sealed package being used for either wavelength. Microchips are also easy to operate and service; controllers can ...

Specifications

Avg. Power: 0.1 W
Wavelength: 532 nm
Repetition Rate: 19-19kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.7 ns
For generating high peak power green pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. The 532nm pulses are produced by harmonic conversion from the IR systems, the same compact sealed package being used for either wavelength. Microchips are also easy to operate and service; controllers can ...

Specifications

Avg. Power: 0.013 W
Wavelength: 532 nm
Repetition Rate: 2-65kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.55 ns
For generating high peak power green pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. The 532nm pulses are produced by harmonic conversion from the IR systems, the same compact sealed package being used for either wavelength. Microchips are also easy to operate and service; controllers can ...

Specifications

Avg. Power: 0.052 W
Wavelength: 532 nm
Repetition Rate: 0-70kHz
Spatial Mode (M^2): 1.1
Pulse Duration: 0.5 ns
For generating high peak power green pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. The 532nm pulses are produced by harmonic conversion from the IR systems, the same compact sealed package being used for either wavelength. Microchips are also easy to operate and service; controllers can ...

Specifications

Avg. Power: 0.048 W
Wavelength: 532 nm
Repetition Rate: 0-70kHz
Spatial Mode (M^2): 1.1
Pulse Duration: 0.5 ns
For generating high peak power green pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. The 532nm pulses are produced by harmonic conversion from the IR systems, the same compact sealed package being used for either wavelength. Microchips are also easy to operate and service; controllers can ...

Specifications

Avg. Power: 0.015 W
Wavelength: 532 nm
Repetition Rate: 0-75kHz
Spatial Mode (M^2): 1.1
Pulse Duration: 0.5 ns
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.

Specifications

Avg. Power: 0.012 W
Wavelength: 266 nm
Repetition Rate: 0-1kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.35 ns
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.

Specifications

Avg. Power: 0.025 W
Wavelength: 355 nm
Repetition Rate: 0-1kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.35 ns
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.

Specifications

Avg. Power: 0.018 W
Wavelength: 532 nm
Repetition Rate: 0-1kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.4 ns
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.

Specifications

Avg. Power: 0.02 W
Wavelength: 532 nm
Repetition Rate: 1-1kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.4 ns
The PowerChip™ passively Q-switched MicroChip lasers offer the highest peak powers and shortest pulses at kilohertz repetition rates with an excellent beam quality. They feature a completely integrated platform which includes the laser head, power supply and air cooling in a compact, rugged, and turnkey package.

Specifications

Avg. Power: 0.08 W
Wavelength: 1064 nm
Repetition Rate: 1-1kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.5 ns
The MNx series are our most compact microchip lasers and cover the mid-IR to visible part of the spectrum. They integrate the pump diode, the micro-cavity and even the second harmonic generation crystal in a package less than 7 cm long. The 1064 nm engine produces sub-nanosecond pulses with several kW peak power, achieving over 50% ...

Specifications

Avg. Power: 0.015 W
Wavelength: 532 nm
Repetition Rate: 5-5kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 0.75 ns
The MNx series are our most compact microchip lasers and cover the mid-IR to visible part of the spectrum. They integrate the pump diode, the micro-cavity and even the second harmonic generation crystal in a package less than 7 cm long. The 1064nm engine produces sub-nanosecond pulses with several kW peak power, achieving over 50% ...

Specifications

Avg. Power: 0.04 W
Wavelength: 1064 nm
Repetition Rate: 5-5kHz
Spatial Mode (M^2): 1.3
Pulse Duration: 1 ns