Application examples

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Solar Cells

Using The CryoLab, it is possible to characterise solar cell at cryogenic temperatures.
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Thin films

Using The CryoLab, it is possible to perform various characterization measurements on thin film samples.
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Heat capacity

The heat capacity of most systems is not a constant. Rather, it depends on the state variables of the thermodynamic system under study. In particular it is dependent on temperature itself.
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Seebeck measurement

The Seebeck effect is the direct conversion of temperature differences to electric voltage and vice versa. With Kryoz hardware it is possible to measure the Seebeck effect at cryogenic temperatures.
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Electron microscopy

Cryocool samples in an EM beam. Zero vibration cryocooling in combination with extreme small size.
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UV sensors

UV sensors can detect ultraviolet light. Cryocooling the sensor improves signal-to-noise ratio, highly increasing its sensitivity.
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Low-noise amplifier

A low-noise amplifier (LNA) can amplify extremely weak signals. Cryocooling the LNA improves signal-to-noise ratio, highly increasing its sensitivity.
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Sensor calibration

Kryoz hardware can be used to easily calibrate a sensor down to cryogenic temperatures.
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SQUID sensors

A SQUID is a very sensitive magnetometer made using superconducting materials. Using Kryoz hardware is it possible to cool these samples below their characteristic critical temperature.
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Xray sensors

Xray sensors can detect xray radiation. Cryocooling the sensor improves signal-to-noise ratio, highly increasing its sensitivity.
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Infrared sensors

IR sensors can detect infrared radiation. Cryocooling the sensor improves signal-to-noise ratio, highly increasing its sensitivity.
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HighTc Bolometers

A bolometer is a device for measuring the power of incident electromagnetic radiation via the heating of a material with a temperature-dependent electrical resistance.