Cryostat Model 104 Olympus
Large, cylindrical, pulse-tube ADR cryostat
Features:
- Cryomech PT410/PT415 Pulse Tube Cooler
- Remote Rotary Valve Motor
- Vibration Isolation Bellows
- Electronically controlled motorized heat switch
- Optional Simon Chase 4He backed 3He system
- Captive screws on vacuum jacket and thermal shield
- Nickel plated aluminum thermal shields (50 K, 4 K)
- HPD ADR (NIST design)
- Kevlar Suspension
- 1 K & 50 mK Stages
- Optimized for versatility and flexibility
- Option A top plate configuration
- 4X ISO80 ports on top flange
- 4X NW50 ports on top flange
- Option B top plate configuration
- 2X ISO80 ports on top flange
- 4X NW63 ports on top flange
- 7X NW50 ports on top flange
- Other Optional ports
- 2X NW200 ports on vacuum jacket side
- 4X NW50 ports on vacuum jacket side
- 1X Ø6" port on vacuum jacket bottom
- Robust internal construction
- Custom Service Stand (Option)
- Allows for transport & servicing
- Allows for inverting of cryostat
Specifications:
- Large Experimental Space: 22.9" Diameter X 42.7" Height
- Cool down from 300 K to 4 K in approximately 16 hours
- Pulse tube stage temperatures of 50 K and 2.7 K
- 1.0 W/1.5 W cooling power at 4.2 K
- ADR base temperature of 50 mK
- >150 hour no load regulation at 100 mK
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Section view of 104 Olympus ADR cryostat showing pulse-tube head, adiabatic demagnetization refrigerator, high temp superconducting leads for 4 T magnet, thermal shielding.
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Model 104 Olympus ADR cryostat on the Support Stand, showing pulse-tube cooler and side ports.
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Model 104 Olympus ADR cryostat on the Support Stand without vacuum jacket, showing pulse-tube cooler, lifting frame, and top feedthrough ports.
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Typical cooling cycle for pulse-tube cooled ADR cryostat.
Compare Models |
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Vacuum Jacket Size
Ø 54 cm X 119 cm Tall |
Vacuum Jacket Size
33 cm X 22 cm X
66 cm Tall |
Vacuum Jacket Size
Ø 35 cm X 69 cm Tall |
Vacuum Jacket Size
Ø 55 cm X 110 cm Tall |
Vacuum Jacket Size
Ø 55 cm X 110 cm Tall |
Vacuum Jacket Size
Ø 44 cm X 65 cm Tall |
Experimental Volume
Ø 42 cm X 19 cm Tall |
Experimental Volume
24 cm X 15 cm X
14 cm Tall |
Experimental Volume
Ø 26 cm X 25 cm Tall |
Experimental Volume
Ø 44 cm X 60 cm Tall |
Experimental Volume
Ø 38 cm X 19 cm Tall |
Experimental Volume
Ø 34 cm X 21 cm Tall |
1st Stage Cooling Power
77 K LN2 |
1st Stage Cooling Power
25 W @ 55 K |
1st Stage Cooling Power
25 W @ 55 K |
1st Stage Cooling Power
35 W @ 45 K
40 W @ 45 K |
1st Stage Cooling Power
40 W @ 45 K |
1st Stage Cooling Power
25 W @ 55 K
35 W @ 45 K
40 W @ 45 K |
2nd Stage Cooling Power
4K LHe |
2nd Stage Cooling Power
0.7 W @ 4.2 K |
2nd Stage Cooling Power
0.7 W @ 4.2 K |
2nd Stage Cooling Power
1 W @ 4.2 K
1.5 W @ 4.2 K |
2nd Stage Cooling Power
1.5 W @ 4.2 K |
2nd Stage Cooling Power
0.7 W @ 4.2 K
1 W @ 4.2 K
1.5 W @ 4.2 K |
Lower Stages
1 K LHe Pot
.6 K Still
.1 K Cold Plate |
GGG Cooling Capacity
1.2 J @ 1 K |
GGG Cooling Capacity
1.2 J @ 1 K |
GGG Cooling Capacity
1.2 J @ 1 K |
Lower Stages
1.5 K
.6 K Still
.1 K Cold Plate |
GGG Cooling Capacity
1.2 J @ 1 K |
Mixing Chamber Base Temperature
30 mK |
ADR Base Temperature
< 50 mK |
ADR Base Temperature
< 50 mK |
ADR Base Temperature
< 50 mK |
Mixing Chamber Base Temperature
30 mK |
ADR Base Temperature
< 50 mK |
Mixing Chamber Cooling Power
150 µW @ 100 mK |
FAA Cooling Capacity
118 mJ @ 100 mK |
FAA Cooling Capacity
118 mJ @ 100 mK |
FAA Cooling Capacity
118 mJ @ 100 mK |
Mixing Chamber Cooling Power
200 µW @ 100 mK |
FAA Cooling Capacity
118 mJ @ 100 mK |
