Showing results: 1 - 5 of 5 items found.
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femtoFit -
Biophotonics Solutions Inc.
femtoFit is an OEM line of phase-only pulse shapers for embedding into laser systems. While the exact layout can be customized and tailored to OEM requirements, the standard model fits within a 6-inch cube. It is offered in two pre-set configurations, with 100nm and 200nm bandwidths centered at 800nm, i.e., common for Ti:Sapphire lasers. It is the winner of the 2009 PhAST/LFW Innovation award!
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femtoJock-D -
Biophotonics Solutions Inc.
The femtoJock-D is a budget-friendly solution that bridges the performance gap between the entry-level femtoJock systems and the popular MIIPS-HD line of diffractive shapers. It takes advantage of the same 2D LCOS SLM as MIIPS-HD does but uses all-reflective optics.
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MIIPSBox640 -
Biophotonics Solutions Inc.
A Prism Award finalist, the MIIPSBox640 product line sets the standard for versatility and performance. It is a state-of-the-art pulse shaping instrument with a single- or dual-mask 640-pixel liquid-crystal SLM. It delivers enhanced dispersion management capabilities, high spectral resolution, and is suitable for a variety of pulse shaping applications.
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Biophotonics Solutions Inc.
The Microscope Detection Unit (MDU) is designed to facilitate femtosecond pulse compression and measurement directly at the focal plane of a microscope, inverted or upright. It contains a nonlinear crystal for second harmonic generation (SHG) as well as other optical elements to separate SHG photons from the laser light and to couple the SHG light into a compact spectrometer via SMA-connected fiber.
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MIIPS-HD -
Biophotonics Solutions Inc.
MIIPS-HD is the first line of pulse shapers on the market that relies on a Hamamatsu''s 2D (792×600 pixels) liquid crystal on silicon-spatial light modulator (LCOS-SLM), and uses diffractive shaping to enable independent phase and amplitude control, without using a polarizer. The system features enhanced power (pulse energy) handling capabilities and offers superior throughput for selected spectral ranges by utilizing SLMs with dielectric back mirrors. It is ideal for direct amplified pulse compression and shaping.