ACE-CUBE

ACE-CUBE is a cryogenic platform operating in a closed cycle. Versatile, it is designed for low-temperature scientific instrumentation.

ACE-CUBE

ACE-CUBE is a cryogenic platform operating in a closed cycle. Versatile, it is designed for low-temperature scientific instrumentation.

The optical cryostat is coupled to the refrigerator by a cryogenic line that can be several meters long. This reduces the space required on the optical table. The cooling system is adapted to the required temperatures.

How it works

How it works

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The cryogenic line operates on a supercritical helium loop that minimizes vibrations induced on the instrument.

The system’s key components are a cryogenic circulator and a high-efficiency heat exchanger, developed by Absolut System.

For very low-temperature applications (< 2K), we add a Joule-Thomson (JT) cooler stage, also operating in a closed cycle.

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  • Supercritical helium loop for low vibration transmission.
  • Radiative shielding at 50-80K
  • Solutions tailored to your needs

Key Points

  • Distance between cooler and instrument
  • Minimized optical table footprint
  • Reduced mechanical coupling
  • Very low exported low-frequency disturbances

Modular, efficient innovation

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Modular, efficient innovation

Modular,
efficient innovation

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The ACE-CUBE offers high energy efficiency for 4K systems, thanks to the Joule-Thomson loop.

Absolut System’s cooling system can combine several cryogenic coolers such as a Pulse-Tube and a Joule-Thomson cooler.

Thanks to the remote cooling system :

  • Simplified access: “table-top” configuration
  • Low vibration generated by the cryogenic cooler
  • No nearby magnetic field generated by the cryogenic cooler

ACE-CUBE adapts to your needs in terms of size, operating temperature and cooling capacity. 

Applications

Scientific applications (optics, materials testing)

Superconductor characterization and superconductor applications (SQUIDS, RSFQ, etc.)

CMOS-type Qbits

Scientific applications (optics, materials testing)

Superconductor characterization and superconductor applications (SQUIDS, RSFQ, etc.)

CMOS-type Qbits

Scientific applications (optics, materials testing, etc.).

CMOS-type Qbits

Characterization of superconductors and superconducting applications (SQUIDS, RSFQ, etc.).

Technical datas

Technical datas

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ProductsRated powerTemperature rangeCooling timeTechnologiesTechnical leaflets
10K1W @ 10K6 - 300K< 4hPT Cryocooler
SC-Loop
4K1W @ 4.5 K4 - 40K< 5hPT Cryocooler
JT Cooler-4K
2K100mW @ 2K2 - 40K< 10hPT Cryocooler
JT Cooler 2K
ProductsTechnical leaflets
10K
4K
2K
Contact-us
Related product: Remote cooling loops

Absolut System is developing cryogenic cooling configurations using closed-loop Helium in the 2K to 300K range. One application is the cooling of superconducting magnets.

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Related product: Remote cooling loops

Absolut System is developing cryogenic cooling configurations using closed-loop Helium in the 2 K to 300 K range. One application is the cooling of superconducting magnets.

More +

Related market: SCIENTIFIC & INDUSTRIAL RESEARCH

Cryogenics refers to the production and study of very low temperatures below -150°C (equivalent to 120K). This technology is used in a wide variety of fields, including science, food, medicine and industry.

More +
Related market: scientific
& industrial research

Cryogenics refers to the production and study of very low temperatures below -150°C (equivalent to 120K). This technology is used in a wide variety of fields, including science, food, medicine and industry.

More +

Our products

Our products

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