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wiki:some_fridges [2022/01/29 15:32]
henri.godfrin@neel.cnrs.fr |
wiki:some_fridges [2022/02/02 17:11] (current)
henri.godfrin@neel.cnrs.fr |
| ====== Some examples ====== | ===== Some examples of powerful Refrigerators ===== |
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| ===== Dilution refrigerators used for the pre-cooling stage of a nuclear demagnetization stage ===== | ==== ULT set-ups cooling 3He well below 100 µK ==== |
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| * An Advanced Dilution Refrigerator Designed for the New Lancaster Microkelvin Facility, D. J. Cousins, S. N. Fisher, A. M. Guenault, R. P. Haley, I. E. Miller, G. R. Pickett, G. N. Plenderleith, P. Skyba, P. Y. A. Thibault, and M. G. Ward, J. of Low Temp. Phys. 114, 547 (1999) [[https://doi.org/10.1023/A:1021862406629|Link to paper]] //(This machine holds the present record of low temperatures with a dilution refrigerator (1.75 mK))// | Estimated lowest temperatures are on the order of 85 µK (actual temperatures may be even lower, the thermometers loosing sensitivity). |
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| * The new Grenoble 100 microKelvin refrigerator, C. Bäuerle, Y. Bunkov, S.N. Fisher, Chr. Gianese and H. Godfrin, Proc. of the 21st. Int. Conf on Low Temp. Physics, Prague, August 8-14 1996, Czekoslovak J. of Phys. 46, suppl S5, 2791-2792, 1996. This machine was built by H. Godfrin and C. Gianèse. It is very long, because it was designed for NMR on 2D-3He samples. The demagnetization coil is far from the NMR coil, and the NMR field is very homogeneous. A Lancaster stage built by G.R. Pickett and S.N. Fisher was installed first, and used in "Cosmology experiments" (Kibble-Zurek effect), and particle detection (MacHe3 and ULTIMA projects). Later on, the Lancaster stage was replaced by a laminar copper stage made by Y.M. Bunkov and used for 3He/aerogel and 2D/3He studies. | * [[https://doi.org/10.1023/A:1021862406629|An Advanced Dilution Refrigerator Designed for the New Lancaster Microkelvin Facility]], D. J. Cousins, S. N. Fisher, A. M. Guenault, R. P. Haley, I. E. Miller, G. R. Pickett, G. N. Plenderleith, P. Skyba, P. Y. A. Thibault, and M. G. Ward, J. of Low Temp. Phys. 114, 547 (1999) //(This machine holds the present record of low temperatures with a dilution refrigerator (1.75 mK))// |
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| | * DN1: [[https://doi.org/10.1007/BF02570382|The new Grenoble 100 microKelvin refrigerator]], C. Bäuerle, Y. Bunkov, S.N. Fisher, Chr. Gianese and H. Godfrin, Czekoslovak J. of Phys. 46, suppl S5, 2791-2792, 1996. This ULT machine, designed in the early 90's (H. Godfrin and C. Gianèse) for NMR on 2D-3He samples, is particularly long: the demagnetization coil being far from the NMR coil, the NMR field is very homogeneous. A Lancaster stage (G.R. Pickett and S.N. Fisher) was installed first, and used in "[[https://doi.org/10.1038/382332a0|Cosmology experiments]]" (Kibble-Zurek effect), and particle detectors projects ([[https://doi.org/10.1142/9789812791313_0094|MacHe3]] and [[https://doi.org/10.1142/9789812770288_0075|ULTIMA projects]]). The Lancaster stage was replaced later on by a laminar copper stage (Y. Bunkov) for 3He/aerogel and 2D-3He studies. |
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| *{{wiki:DN1-copper stage.png?100 |DN1: CNRS ULT refigerator}} .......... {{wiki:DN1-LeadShield.jpg?300|DN1: CNRS ULT refigerator}} | *{{wiki:DN1-copper stage.png?100 |DN1: CNRS ULT refigerator}} .......... {{wiki:DN1-LeadShield.jpg?300|DN1: CNRS ULT refigerator}} |
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| | ==== T<5 mK Refrigerator for Neutron scattering ==== |
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| | {{ drill.jpg?280}} {{ wiki:DRILL_HG_2.jpg?340|DRILL_2_®HG}} |
| | In this type of refrigerators the helium bath does not surround the lower part of the cryostat. Radiation shields enclose the lower section. The refrigerator shown here (named "DRILL") was developed by CNRS and ILL in Grenoble (H. Godfrin, C. Gianèse and R. Chung ). It also has a LN2 bath for long operation time between helium transfers. |
