Since the advent of quantum physics in the first half of last century, interaction of light and matter has been an exciting and extensive field of research. In 1997, The Nobel Prize for Physics was awarded jointly to Steven Chu, Claude Cohen-Tannoudji and William D. Phillips for development of methods to cool and trap atoms with laser light. Since then, there has been an acceleration in theoretical and experimental research and some industrial applications have already been validated.
The lasers used in these experiments must have excellent performance in terms of noise and stability. Stable optical lattices and low temperature optical traps are strongly dependent on laser noise, power stability, mode stability and beam pointing stability. Compromise on one or all of these parameters can lead to unwanted atom heating and loss of, or reduction in lattice contrast. Azurlight Systems offers industry leading performance across all of these parameters making the lasers best in class for a wide range of low temperature physics systems.
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EBD-120210 single channel Digital Controller
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Fibre Pigtailed AO Modulators, Frequency Shifters and Q-switches
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Free Space Acousto-Optic Pulse Pickers
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Free Space AO Modulators and Fixed Frequency Shifters
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Fixed and Variable – Frequency Shifters
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High Power 1015nm Infrared Fibre Amplifier
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High Power 976nm Infrared Fibre Laser & Amplifier
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High Power 1030nm Infrared Fibre Laser & Amplifier
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High Power 1064nm Infrared Fibre Laser & Amplifier
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High Power Infrared Single Mode Fibre Laser Series
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High Power Single Mode Infrared Laser Fibre Amplifiers
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High Power 515nm Fibre Laser & Amplifier
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High Power 532nm Fibre Laser & Amplifier
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Single Mode 351nm & 355nm UV Fibre Lasers
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High Power 488nm Fibre Laser & Amplifier
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High Power Single Mode Visible Fibre Laser
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RF Drivers for Modulators and Fixed Frequency Shifters
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