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The JDSU Q Series lasers lead the market for high-power Q-switched diode-pumped UV lasers used for a wide variety of micromachining and solar cell processing applications. Whether for high pulse-energy processing of refractory materials such as silicon; high repetition rate processing of packaging materials such as Kapton; or patterning thin-film solar cells, the Q Series lasers deliver unsurpassed performance combined with industry-leading uptime.
Due to the self-stabilizing characteristics of intracavity UV harmonic generation, all Q Series lasers exhibit inherently high pulse-to-pulse energy and long-term output power stability. In addition, the excellent thermal stability of the unique Nd:YAG based direct-coupled pump (DCP) architecture maintains exceptionally stable beam position and profile, which is important for processes requiring accurate feature placement. These advantages enable Q Series lasers to achieve the tightest possible process tolerances for micromachining and other materials processing applications.
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BWB
The BWB series are very compact, self-contained, thermoelectric (TE)-cooled, solid-state Violet/Blue lasers. They can be operated over a wide temperature range, 10 to 35°C with a stable and quiet laser output power. The combination of excellent beam characteristics, such as mode quality and low divergence, makes the lasers suitable for beam focusing, as well as long distance beam positioning. The compact power supply can be easily integrated into the OEM version. The end user version has all the applicable safety features, such as key-lock switch, emission indicator and remote interlock.
Key Features
- Options from 4 mW to 100 mW continuous power
- Double thermoelectric cooling
- Excellent mode quality and low divergence
- Very low noise and stable output
- Compact power supply in end-user and OEM versions
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Leopard :
The new Leopard™ series picosecond lasers from Continuum® represents the highest level of technology available in a commercial system. The passive negative feedback employed in the oscillator allows for controlled energy extraction rates from the gain media resulting in exceptionally long and stable pulse trains.
The Leopard™ D provides the shortest pulses available without the high cost and complexity of a regenerative amplifier. The use of a solid state saturable absorber in the LeopardTM SS eliminates the difficulty of working with dyes, resulting in the
most turnkey and modestly priced picosecond laser available.
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The Photon etc. Tunable Source was originally developed for the wavelength calibration of astronomical instruments for the visible and the NIR spectral range. Narrow bandwidth, a large tuning range, and a highly precise and accurate wavelength were successfully achieved with this instrument.
Because of this successful development, Photon etc. is now offering Tunable Sources with different spectral resolutions for wavelength calibration of photometric and radiometric instruments in the visible and the NIR spectral range.
Due to the built-in flexibility of the Tunable Source, the type of source, or the spectral resolution, and thus the optical performance, can be modified to meet our customers' needs. Moreover, the Tunable Source is easily converted into a compact high-performance Monochromator.
The Photon etc. Tunable Source is an ideal instrument for wavelength calibration of both laboratory and field equipment, for which portable, durable, and resistant instruments are required.
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Other solid state lasers
