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September 2016 |
The Elliot Scientific September 2016 Newsletter: In this issue we introduce Fibercryst - the only manufacturer of short pulse lasers and amplifiers utilising the innovative Single Crystal Fibre technology, gain insight with the latest THz accessory for Probe Stations from Lake Shore Cryotronics, invite you to watch Seebeck measurements being conducted using a CryoLab from Kryoz, and inform you about the Elliot Scientific range of optics, waveplates, mirrors and filters. |
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Introducing Single Crystal Fibre Laser Systems - New products from Fibercryst |
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Elliot Scientific is pleased to introduce Fibercryst, the only manufacturer of short pulse lasers and amplifiers utilising the innovative Single Crystal Fibre technology (SCF). Originally developed from a series of University research programs, the SCF technology has been refined and commercialised by Fibercryst and patented jointly with the Institut d'Optique, and offers significant performance advantages over existing technologies. The products range from a full featured femtosecond micromachining laser, through a stand-alone commercial amplifier, to individual amplifier modules:
FEMTO
Taranis Amplifier Systems
Taranis Laser Gain Module
Taranis laser gain modules are water-cooled and can be used with one or two pump diodes, and in single or double-pass geometries. The inherent pump light guiding property of Taranis also makes it ideal for end-pumping configurations.
Sub-nanosecond mJ laser Register your interest in these products now. |
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New THz Arm for Lake Shore Cryogenic Probe Stations |
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Lake Shore Cryotronics is now taking advanced orders for their unique terahertz-frequency probe arm option compatible with the CPX, CPX-VF, CRX-4K, and CRX-VF cryogenic probe stations. The arm enables precise probing and measurement of millimetre-wave devices at 75 to 110 GHz or 140 to 220 GHz within a tightly controlled cryogenic test environment. When used with compatible probes, frequency extenders, and signal analysers, the probe arm allows for calibrated S-parameter and other high-frequency measurements as a function of low temperature and high magnetic field. This THz prodbe arm solution offers particular value to researchers developing next-generation electronics such as new MMIC, MEMS, LNA, and THz detector devices, and components for radio astronomy and 5G wireless applications. Please contact us for more details. |
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Seebeck measurements using CryoLab: Demo video from Kryoz |
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The Seebeck effect is the direct conversion of temperature differences to electric voltage and vice versa. A thermoelectric device creates voltage when there is a different temperature on each side. Conversely, when a voltage is applied to it, it creates a temperature difference. By using the CryoLab from Kryoz, it is possible to measure the Seebeck coefficient of a material sample, wire or thin film from 373 Kelvin down to cryogenic temperatures. In this informative video, Kryoz demonstrate how such measurements are made using their equipment. For more information, please contact us. |
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Elliot Scientific Optics: Superior quality laser mirrors and waveplates from stock |
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Elliot Scientific Optics are a select range of superior quality laser optics in standard sizes that we offer from stock for next working-day delivery in the UK, along with made to order low-cost high-quality dyed glass, ND and dichroic filters..
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Elliot Scientific will be exhibiting next month at... |
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Tel: +44 (0)1582 766300 | Fax: +44 (0)1582 766340 | Eml: sales@elliotscientific.com | © September 2016 | |||||||||||||