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wiki:pulse-tube_dr [2022/01/28 13:29]
henri.godfrin@neel.cnrs.fr 		wiki:pulse-tube_dr [2022/11/12 20:47] (current)
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 === Koike's Lab === === Koike's Lab ===
 A 41 mK hybrid refrigerator (Gifford - McMahon and pulse-tube) was built very early in Japan. The pulse-tube was used as 4K stage, making this machine a genuine pulse-tube based dilution unit. The performance was poor, however, due to the Gifford - McMahon high temperature stage.  A 41 mK hybrid refrigerator (Gifford - McMahon and pulse-tube) was built very early in Japan. The pulse-tube was used as 4K stage, making this machine a genuine pulse-tube based dilution unit. The performance was poor, however, due to the Gifford - McMahon high temperature stage. 
-  * A dilution refrigerator using the pulse tube and GM hybrid cryocooler for neutron scattering, Y. Koike, Y. Morii, T. Igarashi, M. Kubota, Y. Hiresaki, K. Tanida, Cryogenics 39 (1999) 579-583,  https://doi.org/10.1016/S0011-2275(99)00077-6+  * A dilution refrigerator using the pulse tube and GM hybrid cryocooler for neutron scattering, Y. Koike, Y. Morii, T. Igarashi, M. Kubota, Y. Hiresaki, K. Tanida, Cryogenics 39 (1999) 579-583, [[https://doi.org/10.1016/S0011-2275(99)00077-6]]
  
 === Uhlig's Lab === === Uhlig's Lab ===
 Kurt Uhlig, in Garching, developed several machines of increasing performance. The first refrigerator reached 15 mK with a continuous heat exchanger (2002). A new model with a double mixing-chamber reached 4.3 mK (2004). A different machine with step heat exchangers allowed reaching T<10 mK (2012):  Kurt Uhlig, in Garching, developed several machines of increasing performance. The first refrigerator reached 15 mK with a continuous heat exchanger (2002). A new model with a double mixing-chamber reached 4.3 mK (2004). A different machine with step heat exchangers allowed reaching T<10 mK (2012): 
-  * 3He/4He dilution refrigerator with pulse-tube refrigerator precooling, Kurt Uhlig, Cryogenics 42 (2002) 73–77, https://doi.org/10.1016/S0011-2275(02)00002-4 +  * 3He/4He dilution refrigerator with pulse-tube refrigerator precooling, Kurt Uhlig, Cryogenics 42 (2002) 73–77, [[https://doi.org/10.1016/S0011-2275(02)00002-4]] 
-  * “Dry” dilution refrigerator with pulse-tube precooling, Kurt Uhlig, Cryogenics 44 (2004) 53, https://doi.org/10.1016/j.cryogenics.2003.07.007 +  * “Dry” dilution refrigerator with pulse-tube precooling, Kurt Uhlig, Cryogenics 44 (2004) 53, [[https://doi.org/10.1016/j.cryogenics.2003.07.007]] 
-  * Cryogen-free dilution refrigerators, K Uhlig 2012, Journal of Physics:ConferenceSeries 400 (2012) 052039 https://doi.org/10.1088/1742-6596/400/5/052039 +  * Cryogen-free dilution refrigerators, K Uhlig 2012, Journal of Physics:Conference Series 400 (2012) 052039 [[https://doi.org/10.1088/1742-6596/400/5/052039]] 
  
 === Godfrin's Lab === === Godfrin's Lab ===
-A commercial pulse-tube dilution refrigerator was developed in 1999 in Grenoble (France) by H. Godfrin and Ch. Gianèse (CNRS) and the company l'Air Liquide. The first commercial machine (PT-DR1) was delivered to A. Giuliani (Cuoricino experiment) in 2003. With 4 sintered silver heat exchangers, the refrigerator had a base temperature of 5 mK. Because of patents and industrial know-how agreements, details were published later:  +{{ pt-dr1.jpg?270|PT-DR1 Source: Godfrin & Gianese/Air Liquide}} 
-  * Pulse-tube dilution refrigeration below 10 millikelvins, T. Prouvé, H. Godfrin, C. Gianèse, S. Triqueneaux, A. Ravex, J. of  Low Temp. Phys. 148 (5-6), 909-914 (2007) https://doi.org/10.1007/s10909-007-9450-6 +A commercial pulse-tube dilution refrigerator was developed in 1999 in Grenoble (France) by H. Godfrin and Ch. Gianèse (CNRS) and the company l'Air Liquide. The first commercial machine (PT-DR1, picture on the right) was delivered to A. Giuliani (Cuoricino experiment) in 2003. With 4 sintered silver heat exchangers, the refrigerator had a base temperature of 5 mK. Because of patents and industrial know-how agreements, details were published later:  
-  * Pulse-tube dilution refrigeration below 10 mK for Astrophysics; T. Prouvé, H. Godfrin, C. Gianèse,  S. Triqueneaux, A. Ravex, J. of  Low Temp. Phys. 151, 640-644 (2008), https://doi.org/10.1007/s10909-008-9725-6 +  * Pulse-tube dilution refrigeration below 10 millikelvins, T. Prouvé, H. Godfrin, C. Gianèse, S. Triqueneaux, A. Ravex, J. of  Low Temp. Phys. 148 (5-6), 909-914 (2007) [[https://doi.org/10.1007/s10909-007-9450-6]] 
-  * Experimental results on the free cooling power available on 4K pulse tube coolers, T. Prouvé, H. Godfrin, C. Gianèse, S. Triqueneaux, A. Ravex, J. of  Phys. : Conference Series 150, 012038 (2009). https://doi.org/10.1088/1742-6596/150/1/012038  (Air Liquide, U.S. Patent 6,915,642; CNRS-Air Liquide French Patent FR07 53945) +  * Pulse-tube dilution refrigeration below 10 mK for Astrophysics; T. Prouvé, H. Godfrin, C. Gianèse,  S. Triqueneaux, A. Ravex, J. of  Low Temp. Phys. 151, 640-644 (2008), [[https://doi.org/10.1007/s10909-008-9725-6]] 
-  * Développement d'un réfrigérateur à dilution prérefroidi par un tube à gaz pulsé, Thomas Prouvé, PhD Thesis, Grenoble (2007) https://tel.archives-ouvertes.fr/tel-00201891+  * Experimental results on the free cooling power available on 4K pulse tube coolers, T. Prouvé, H. Godfrin, C. Gianèse, S. Triqueneaux, A. Ravex, J. of  Phys. : Conference Series 150, 012038 (2009). [[https://doi.org/10.1088/1742-6596/150/1/012038]]  (Air Liquide, U.S. Patent 6,915,642; CNRS-Air Liquide French Patent FR07 53945) 
 +  * Développement d'un réfrigérateur à dilution prérefroidi par un tube à gaz pulsé, Thomas Prouvé, PhD Thesis, Grenoble (2007) [[https://tel.archives-ouvertes.fr/tel-00201891]]
  
 The cryostats PT-DR1 (industrial version version delivered in 2003), PT-DR2 (2007, version presented at the Industrial Exhibition of LT25, Amsterdam, 2008), and PT-DR4 (Pulse-tube dilution for neutron scattering, 2021 version shown): The cryostats PT-DR1 (industrial version version delivered in 2003), PT-DR2 (2007, version presented at the Industrial Exhibition of LT25, Amsterdam, 2008), and PT-DR4 (Pulse-tube dilution for neutron scattering, 2021 version shown):
  
-{{pt-dr1-godfrin.png?320|PT-DR1 2003 version. Source:Godfrin & Gianese/Air Liquide}} + {{pt-dr1-godfrin.png?300|PT-DR1 2003 version. Source: Godfrin & Gianese/Air Liquide}}  
-{{PT-DR2-Godfrin-Air_Liquide.jpg?250|PT-DR2  2007 version. Source:Godfrin & Gianese/Air Liquide}}   +{{PT-DR2-Godfrin-Air_Liquide.jpg?250|PT-DR2  2007 version. Source: Godfrin & Gianese/Air Liquide}}     
-{{PT-DR4-Godfrin.png?187|PT-DR4. Source:Godfrin & Triqueneaux}}+{{PT-DR4-Godfrin.png?187|PT-DR4. Source: Godfrin & Triqueneaux}}
  
  
  
wiki/pulse-tube_dr.1643376591.txt.gz · Last modified: 2022/01/28 13:29 by henri.godfrin@neel.cnrs.fr

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