3K Ultra-Precision Optical Microscopy Cryostat (CryoAce®)

 

Ultra-precision optical microscopy cryostat (registered trademark: CryoAce®) employs multi-stage anti-vibration technologies, including patented cold head suspension anti-vibration technique, combined with robust adiabatic support structure and high performance flexible thermal link, to reduce the vibration level of conventional cryocoolers to the nanometer scale. It offers four standard cold plate sizes with diameters of 5cm, 10cm, 15cm, and 20cm, achieving a nominal vibration level between 6nm and 12nm. The base temperature range is 2.4K to 3.0K (Note: vibration level, base temperature, and cold plate size are interrelated). Standard features include a top window, (and/or) side window and calibrated temperature sensor, with compatibility for one (or multiple) sets of nanopositioners and objectives. CryoAce serves as an ideal low-temperature platform for experiments involving single quantum dots, NV centers, single molecule, microscopic optics, cryogenic ion traps, cold atoms, neutral atoms, and optical clocks, etc.

 

CryoAce adopts a desktop design, eliminating the need for a special drilling anti-vibration optical table. Installation, movement, and transportation are very convenient, and it is easy to match with microscopes, commercial spectrometers, and self-built optical paths. Standard air-cooled helium compressor, eliminating the need for a water-cooled chiller, small footprint, no need for three-phase power, low power consumption. In addition, the CryoAce is equipped with multiple cryopumps, which can ensure high vacuum characteristics for long-term operation without the need for an external vacuum pump to continuously evacuate.

 

CryoAce offer multiple options: multipin /BNC /Triax BNC feedthroughs; SMA(18GHz) /2.92mm(40GHz) /2.4mm(50GHz) /1.85mm(65GHz) /1.0mm(110GHz) RF feedthroughs; Optical fiber feedthroughs; Optical windows (UV, Vis, IR, THz and other wavelengths); PUCK/DIP/LCC electrical sample holders, optical transmission sample holder; Cryogenic twisted pair wires, flexible coaxial/triaxial cables and RF semi-rigid cables; Compact extension for transmission optical experiments or matching magnets.

 



CryoAce 50

  • < 2.4K-370K Sample Temperature
  • Cold Plate 50mm
  • Low Vibration < 6nm
  • Cooldown Time to 4.2K < 160min
  • Cooling Power [email protected]

 

 

CryoAce-50 with compact extension for transmission.
CryoAce-50 with compact extension for transmission.

Typical cooling down curve of CryoAce-50 & Cooling power on 4K cold plate of CryoAce-50
Typical cooling down curve of CryoAce-50 & Cooling power on 4K cold plate of CryoAce-50
Typical vibration time-domain spectra of CryoAce-50 &  Typical vibration frequency spectrum of CryoAce-50
Typical vibration time-domain spectra of CryoAce-50 & Typical vibration frequency spectrum of CryoAce-50


CryoAce 100

 

  • < 2.7K-370K Sample Temperature
  • Cold Plate 100mm
  • Low Vibration < 6nm
  • Cooldown Time to 4.2K < 240min
  • Cooling Power [email protected]

 

 

 

 

Cryoace-100 with added horizontal extension and vertical extension for easy matching with magnets.
Cryoace-100 with added horizontal extension and vertical extension for easy matching with magnets.

Typical cooling down curve of CryoAce-100 & Cooling power on 4K cold plate of CryoAce-100
Typical cooling down curve of CryoAce-100 & Cooling power on 4K cold plate of CryoAce-100
Typical vibration time-domain spectra of CryoAce-100 .& Typical vibration frequency spectrum of CryoAce-100.
Typical vibration time-domain spectra of CryoAce-100 .& Typical vibration frequency spectrum of CryoAce-100.



CryoAce 200

  • < 3.2K-370K Sample Temperature
  • Cold Plate 200mm
  • Low Vibration < 12nm
  • Cooldown Time to 4.2K < 600min
  • Cooling Power [email protected]

 

 

CryoAce-200 cryostat and 4K cold plate
CryoAce-200 cryostat and 4K cold plate

Typical cooling down curve of CryoAce-200 & Cooling power on 4K cold plate of CryoAce-200
Typical cooling down curve of CryoAce-200 & Cooling power on 4K cold plate of CryoAce-200
Typical vibration time-domain spectra of CryoAce-200 .& Typical vibration frequency spectrum of CryoAce-200
Typical vibration time-domain spectra of CryoAce-200 .& Typical vibration frequency spectrum of CryoAce-200

Specifically designed Cryoace-200 for "optical clocks" with base temperature:< 3.2K and temperature stability: 0.1mK.
Specifically designed Cryoace-200 for "optical clocks" with base temperature:< 3.2K and temperature stability: 0.1mK.