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Sample In Vacuum

The majority of our vacuum shrouds attach via a double o-ring which allows for rotation of the sample with respect to the vacuum shroud. Most customers find this useful as it allows them to rotate the sample in a magnetic field or allow for glancing angles for optical experiments. Our systems can also interface with ISO flanges or CF flanges if desired. Please consult the factory for more details.

X-1AL
Economy

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This low cost vacuum shroud is well suited for electrical, magnetic, and optical experiments. It provides up to 4 windows and has F/1.0 to collect weak signals. The sample space is 1.4 inches in diameter by 1.5 inches long. The vacuum shroud attaches via a double o-ring which allows for rotation under vacuum. The threaded aluminum radiation shield allows for easy optical alignment, without additional hardware.

Cryostat Model Type Power Cost
CS202*E-DMX-1AL CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*E-FMX-1AL CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-1SS
High Performance

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This high performance vacuum shroud is well suited for electrical, magnetic, and optical experiments. It has 5 window ports and has F/0.8 to collect weak signals. The vacuum shroud attaches via a double o-ring which allows for rotation under vacuum. The nickel plated copper radiation shield provides a durable low emissivity finish. This system can achieve vacuum levels of 10-7 Torr.

Cryostat Model Type Power Cost
CS202*I-DMX-1SS CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*I-FMX-1SS CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*I-GMX-1SS CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT3-WMX-1SS Flow A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-2
X-Ray Diffraction

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This lightweight cryocooler provides the tight rotational clearance needed when teaming up with Huber goniometers and Bruker diffractometers. This is shown with Beryllium domes on both the radiation shield and vacuum shroud. There are also options for 180° Beryllium or Kapton windows. The LT3G-WMX-2D takes advantage of the angstrom scale vibrations to provide a unique cryostat for Speckled XRD.

Cryostat Model Type Power Cost
CS202*I-DMX-2 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS202*I-DMX-2C CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS202*I-DMX-2D CCR A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT3G-WMX-2D Flow A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-3
Non-Optical

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This non-optical vacuum shroud comes in a variety of options. As shown, the second stage reduces for narrow gaps into magnets. Additionally, this shroud is available for large samples. The choice between aluminum or stainless steel makes this the ideal shroud for any transport experiment.

Cryostat Model Type Power Cost
CS202*E-DMX-3 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*E-FMX-3 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*E-GMX-3 CCR A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT-3-110-WMX-3 Flow A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-4
Large Sample

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This stainless steel vacuum shroud is designed for optical and electrical testing of large samples. It comes standard with 4 window ports and provides an option for a 5th window on top. With a sample space of at least 1.87 inches in diameter and 3.5 inches in length, this system is ideal when larger sample space is required. The vacuum shroud attaches via a double o-ring which allows for rotation under vacuum.

Cryostat Model Type Power Cost
CS202*I-DMX-4 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*I-FMX-4 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-5
Neutron Science

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This thinned aluminum vacuum shroud is designed for neutron science. The 360° window is ideal for minimizing blind spots and provides the axial symmetry required for manipulation of these small and lightweight cryocoolers. The high first stage cooling power ensures fast a cooldown and large net refrigeration on the second stage. The thinned aluminum sample space is also available in our sample in vapor cryostats.

Cryostat Model Type Power Cost
CS202*E-DMX-5 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*E-FMX-5 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*E-GMX-5 CCR A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-12
Narrow Gap

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This narrow gap vacuum shroud is designed to be put between the poles of a magnet. Two window ports come standard, allowing for access perpendicular to the magnet poles. The window ports have a 1 inch diameter clear view and a sample space of at least 1 inch in diameter by 1.1 inches long. The X-12B provides a similar setup but is slightly narrower. This vacuum shroud attaches via a double o-ring and allows for rotation while system is running.

Cryostat Model Type Power Cost
CS202*E-DMX-12 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*E-FMX-12 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT3-110-WMX-12 Flow A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-15
EPR

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This system is our closed cycle cryostat designed for EPR, NMR, and ESR applications. It is designed to work with the Bruker, Jeol, and Varian microwave cavities. The quartz tube is attached by an o-ring which permits easy access to the sample holder. The welded stainless steel construction allows for vacuum levels of 10-7 Torr. Sample changes can be made while the system is cold.

Cryostat Model Type Power Cost
CS202*I-DMX-15 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-16SS
High Performance

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This high performance vacuum shroud provides all of the benefits of the X-1SS and has a longer sample space, which makes it ideal for long samples and liquid samples. This vacuum shroud is well suited for electrical, magnetic, and optical experiments. The vacuum shroud attaches via a double o-ring which allows for rotation under vacuum. This system comes standard with a welded instrumentation skirt which allows for vacuum levels of 10-7 Torr.

Cryostat Model Type Power Cost
CS202*I-DMX-16SS CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*I-FMX-16SS CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT3-WMX-16SS Flow A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-20
Ultra Low Vibration

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The Ultra Low Vibration Interface allows for 3-5 nm of vibration at the sample. This system uses a helium exchange gas to decouple the cryocooler from the interface. This system comes standard with 4 window ports and has an F/1.4. The minimum sample space is 1.9 inches in diameter by 1.5 inches long. A wide variety of options are available for easy sample change and translation capabilities.

Cryostat Model Type Power Cost
CS202*F-DMX-20 CCR A Relative Display of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*F-DMX-20 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*F-GMX-20 CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

X-20B
ULV for UHV

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Our X-20B has the best of both worlds, with both Ultra Low Vibrations and the Ultra High Vacuum. Vibration levels of 3-5 nm can be achieved while maintaining vacuum levels of 10-11 Torr. This combination provides the upmost flexibility for experimental setups. Because the cryocooler can be removed easily from the exchange gas interface without breaking vacuum, the system can be easily baked out to 200 C.

Cryostat Model Type Power Cost
CS202*F-DMX-20B CCR A Relative Display of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS204*F-DMX-20B CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*F-GMX-20B CCR A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs

-OM
Optical Microscopy

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This closed cycle microscopy cryostat boasts ultra low vibrations (3-5 nm) and can achieve temperatures up to 450 K. The continuously adjustable sample height (1.5 mm to 7 mm) allows for a wide variety of sample sizes. Consult the factory for the addition of magnet posts and all other options and features.

Cryostat Model Type Power Cost
CS204*F-DMX-20-OM CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
CS210*F-GMX-20-OM CCR A Relative Display of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar SignsA Relative Display of Initial Monitary Cost From 1-4 Dollar Signs
LT3-OM Flow A Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 SnowflakesA Relative Display of Watts of Cooling Power increasing from 1-4 Snowflakes A Relative Display of Initial Monitary Cost From 1-4 Dollar Signs