Q-TUNE - air-cooled, diode-pumped, tuneable wavelength Q-switched laser
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- Seamless laser and Optical Parametric Oscillator (OPO) integration.
- Turnkey performance due water-free pump laser design.
- Microprocessor controlled operation with self-optimization, self-calibration capability.
- Guaranteed >2 Gshot pump diode lifetime.
- Hands-free, automated tuning from 210 to 2300 nm.
- Up to 100 Hz pulse repetition rate.
- Up to 8 mJ pulse energy in visible range.
- <6 cm-1 linewidth.
- Internal or external triggering modes.
- Separate output ports for access to pump laser wavelengths.
- Low power consumption – from 50 to 150 W depending on model.
- Air purging for long lifetime of UV optics.
Q-TUNE in detail
Description
Q-TUNE is using Optical Parametric Oscillator (OPO) to produce tunable wavelength in 410-2300 nm range with linewidth narrower that 6 cm-1. Optional second harmonic generator extends tuning range to 210-410 nm with linewidth narrower that 12 cm-1. Combined with shorter than 5 ns pulse duration and up to 100 Hz pulse repetition rate Q-TUNE is perfect coherent light source for temporally resolved spectroscopy, metrology, photoacoustic imaging.
QLI breakthrough water-free laser crystal pumping technology allows to produce high quality laser beam with up to 100 mJ pulse energy. Advanced laser design resulted in very compact, user-friendly turnkey system that requires little maintenance. There is no chillers or bulky power supplies that one needs to fit under the table. All laser electronics is integrated into housing of the Q-TUNE and the only external module is mains adapter that provides 12 or 28 VDC, 50-150 W power (depending on model).
Both pump laser and OPO are controlled trough single Ethernet port via build-in web-server. There is no need to install control software – any computer or even cell phone with modern web-browser will be able to control Q-TUNE. API is also provided for integration with user devices.
In addition to tunable wavelength output, the Q-TUNE provides two extra ports for access to pump laser beams.
Optional extensions available by request:
• Air purging for long lifetime of UV optics.
• Compact spectrometer for monitoring of OPO wavelength and linewidth.
• Fiber coupled OPO output.
Applications
- Temporally resolved laser spectroscopy (for example, Light Induced Fluorescence Spectroscopy (LIFS))
- Non-linear laser spectroscopy.
- Confocal microscopy.
- Metrology.
- Photo-acoustics imaging.
Q-TUNE in detail
Description
Q-TUNE is using Optical Parametric Oscillator (OPO) to produce tunable wavelength in 410-2300 nm range with linewidth narrower that 6 cm-1. Optional second harmonic generator extends tuning range to 210-410 nm with linewidth narrower that 12 cm-1. Combined with shorter than 5 ns pulse duration and up to 100 Hz pulse repetition rate Q-TUNE is perfect coherent light source for temporally resolved spectroscopy, metrology, photoacoustic imaging.
QLI breakthrough water-free laser crystal pumping technology allows to produce high quality laser beam with up to 100 mJ pulse energy. Advanced laser design resulted in very compact, user-friendly turnkey system that requires little maintenance. There is no chillers or bulky power supplies that one needs to fit under the table. All laser electronics is integrated into housing of the Q-TUNE and the only external module is mains adapter that provides 12 or 28 VDC, 50-150 W power (depending on model).
Both pump laser and OPO are controlled trough single Ethernet port via build-in web-server. There is no need to install control software – any computer or even cell phone with modern web-browser will be able to control Q-TUNE. API is also provided for integration with user devices.
In addition to tunable wavelength output, the Q-TUNE provides two extra ports for access to pump laser beams.
Optional extensions available by request:
• Air purging for long lifetime of UV optics.
• Compact spectrometer for monitoring of OPO wavelength and linewidth.
• Fiber coupled OPO output.
Applications
- Temporally resolved laser spectroscopy (for example, Light Induced Fluorescence Spectroscopy (LIFS))
- Non-linear laser spectroscopy.
- Confocal microscopy.
- Metrology.
- Photo-acoustics imaging.