CryoSpectra deliver the simplest way to bring cryogenic temperatures into a vacuum chamber through their uniquely designed cryorefrigeration systems.
With a high cooling capacity from a very small cold head, the system is the easily the best way to cool laser crystals to cryogenic temperatures, thus guaranteeing Carrier Envelope Phase (CEP) stabilisation of femtosecond or shorter pulses.
- High cooling capacity at cryogenic temperatures
- Cool-down times: 20 to 30 minutes
- Compact cold head is practically vibration-free
- Quiet operation
More than two dozen models deliver between 75 and 170 Kelvin, with each cryorefrigerator offering a particular cooling capacity dependent on compressor size and whether it is air or water-cooled. All types can be water-cooled, but only those operating at the higher temperatures of 130 and 170 K can be purchased as air-cooled units.
More information, such as specifications, can be found in the datasheet sets downloadable from the Documents tab above.
|Series||Nominal Operating||Cooling Power (Watts)|
|K90||75-90 K||150 to 300||-|
|K100||90-100 K||75 to 500||-|
|K110||90-110 K||75 to 600||-|
|K130||100-130 K||75 to 1000||75 or 100|
|K170||160 K||20 to 40||20|
Standard 38 mm diameter cold head-units are available with CFF-40 (10-12 mbar) or KF-50 (10-7 mbar) flanges for easy attachment, eliminating the need for costly custom vacuum chambers. The unique, compact design also allows for a reduction in chamber size, leading to better vacuum conditions and the benefit of reduced pump down times. Higher cooling capacity (50 mm diameter) cold heads are supplied with either CFF-50- or KF-63 flanges.
All CryoSpectra cold heads are gold plated to resist oxidation, have four M4 thread mounting holes, and are polished for the best heat conductivity and optical reflectivity. The CFF-40 UHV cold head has a leakage rate lower than 10-11 mbar l/s.
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