As we are studying superconductivity in our lab, we need to have some of the devices cooled down to cryogenic temperatures. We have 2 cryostations in our labs, both can cool down to 3.2K and computer controlled so the user can determine a specific target temperature – and the cryostat will maintain this temperature at about 10mK stability.
The chamber has 25 thermal lagged electrical feedthroughs, and 5 wide windows made of Fused-Silica which enable 400nm – 1000nm light to penetrate in and out.
PERFORMANCE BENEFITS
- Low thermal fluctuations and nanometer level vibrations provide a stable measurement environment
- Wide temperature ranges with fast cooldowns make the instrument more productive
- Closed-cycle operation means no helium is consumed, so users avoid the high costs, uncertain supply, and challenging operation associated with liquid cryogens
USABILITY BENEFITS
- Straightforward user interface and fully-automated control system increases experimental efficiency
- Incredible sample, electrical, and optical access provides total experiment flexibility
- Fully-integrated, turn-key design gets you up and running quickly with minimal effort
- Tabletop design integrates into existing setups and can be moved easily
100-class: Optimized Space Design
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The 100-class chambers offer a volume optimized solution with a larger working space design to provide room for additional equipment, such as multiple piezo stacks, while still offering high levels of performance. The flexible sample space incorporates a modular cold circuit board to solve many of the common challenges related to the sensitivity of wiring on cryogenic performance. Pre-lagged wiring, quick-click side connectors, flexible circuits, and interchangeable platform interfacing “wedges” make the system more robust, customizable, and simple to setup.
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