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wiki:demag_papers [2022/11/11 22:47]
henri.godfrin@neel.cnrs.fr [Nuclear Cooling] 		wiki:demag_papers [2022/12/15 13:56] (current)
henri.godfrin@neel.cnrs.fr
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 ====== Articles on Nuclear Demagnetization ====== ====== Articles on Nuclear Demagnetization ======
  
-==== Nuclear Cooling ==== 
  
   * Nuclear Cooling, N. Kurti, F. N. H. Robinson, F. Simon, D. A. Spohr, Nature 178 (1956) 450, [[https://doi.org/10.1038/178450a0]]   * Nuclear Cooling, N. Kurti, F. N. H. Robinson, F. Simon, D. A. Spohr, Nature 178 (1956) 450, [[https://doi.org/10.1038/178450a0]]
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   * Cooling of 3He to 1 mK by nuclear demagnetization of PrNi5, K.Andres, S.Darack, Physica B+C 86–88 (1977) 1071-1076, [[https://doi.org/10.1016/0378-4363(77)90799-9]]   * Cooling of 3He to 1 mK by nuclear demagnetization of PrNi5, K.Andres, S.Darack, Physica B+C 86–88 (1977) 1071-1076, [[https://doi.org/10.1016/0378-4363(77)90799-9]]
  
 +  * Nuclear Demagnetization of PrS and PrNi5, C. Buchal, K. J. Fischer, M. Kubota, R. M. Mueller, F. Pobell, Journal de Physique Lettres 39 (1978) L457-L458, [[https://doi.org/10.1051/jphyslet:019780039023045700 ]]
  
-Nuclear Demagnetization of PrS and PrNi5CBuchalK. J. Fischer, MKubotaRMMueller, F. Pobell, Journal de Physique Lettres 39 (1978) L457-L458, doi.org/10.1051/jphyslet:019780039023045700+  * Two Stage Nuclear Demagnetization ExperimentsRHunikEBongers, J.AKonterW.JHuiskamp, Journal de Physique Colloques 39 (1978) C6-1155-C6-1156[[https://doi.org/10.1051/jphyscol:19786511]]
  
-Two Stage Nuclear Demagnetization Experiments, R. HunikEBongersJ.AKonterW.JHuiskampJournal de Physique Colloques 39 (1978C6-1155-C6-1156, doi.org/10.1051/jphyscol:19786511+  * A Double-stage nuclear demagnetization refrigerator, R. M. MuellerChrBuchalHRFolleMKubota, FPobellCryogenics 20 (1980395-407[[https://doi.org/10.1016/S0011-2275(80)80049-X]]
  
-A Double-stage nuclear demagnetization refrigerator, R. M. MuellerChr. Buchal, H. R. Folle, M. Kubota, F. Pobell, Cryogenics 20 (1980395-407, doi.org/10.1016/S0011-2275(80)80049-X+  * Nuclear refrigeration properties of PrNi5H. R. Folle, M. KubotaCh. Buchal, R. M. Mueller, F. Pobell, Zeitschrift für Physik B Condensed Matter 41 (1981223–228[[https://doi.org/10.1007/BF01294426]]
  
-Nuclear refrigeration properties of PrNi5, H. R. Folle, M. Kubota, Ch. Buchal, R. M. Mueller, F. Pobell, Zeitschrift für Physik Condensed Matter 41 (1981223–228, doi.org/10.1007/BF01294426+  * The quest for ultralow temperatures: What are the limitations?, F. Pobell, Physica B+C 109–110 (19821485-1498[[https://doi.org/10.1016/0378-4363(82)90172-3]]
  
-The quest for ultralow temperatures: What are the limitations?FPobellPhysica B+109–110 (19821485-1498, doi.org/10.1016/0378-4363(82)90172-3+  * New method for nuclear cooling into the microkelvin regimeDI. Bradley, A. M. Guénault, V. Keith, C. J. Kennedy, I. E. Miller, S. G. Musset, G. R. Pickett, W. P. Pratt, Jr., Journal of Low Temperature Physics 57 (1984359-390[[https://doi.org/10.1007/BF00681199]]
  
-New method for nuclear cooling into the microkelvin regimeDI. BradleyA. MGuénaultVKeithCJ. KennedyI. EMillerSG. Musset, G. R. Pickett, W. P. PrattJr., Journal of Low Temperature Physics 57 (1984) 359-390, doi.org/10.1007/BF00681199+  * Two-stage nuclear demagnetization refrigerator reaching 27 µKHIshimotoNNishidaTFurubayashiMShinoharaYTakanoYMiuraKÔno, Journal of Low Temperature Physics 55 (1984) 17–31[[https://doi.org/10.1007/BF00683649]]
  
-Two-stage nuclear demagnetization refrigerator reaching 27 µKHIshimoto, NNishidaT. Furubayashi, M. Shinohara, Y. Takano, Y. Miura, K. Ôno, Journal of Low Temperature Physics 55 (1984) 17–31, doi.org/10.1007/BF00683649+  * Adiabatic nuclear demagnetization: Two sophisticated experimentsOVLounasmaaPhysica B+C 126 (1984) 8-17, [[https://doi.org/10.1016/0378-4363(84)90140-2]] 
  
-Adiabatic nuclear demagnetization: Two sophisticated experimentsOVLounasmaaPhysica B+C 126 (19848-17, doi.org/10.1016/0378-4363(84)90140-2+  * Optimization procedure for the cooling of Liquid 3He by adiabatic demagnetization of praseodymium nickelJMParpiaW. P. Kirk, P. S. Kobiela, T. L. Rhodes, Z. Olejniczak, G. N. Parker, Review of Scientific Instruments 56 (1985437-443[[https://doi.org/10.1063/1.1138319]] 
  
-Optimization procedure for the cooling of Liquid 3He by adiabatic demagnetization of praseodymium nickelJMParpiaWPKirk, P. S. KobielaTLRhodesZOlejniczakG. N. Parker, Review of Scientific Instruments 56 (1985437-443, doi.org/10.1063/1.1138319+  * The Bayreuth Nuclear Demagnetization RefrigeratorKGloos, PSmeibidlCKennedy, ASingsaas, P. SekowskiRMMuellerFPobellJournal of Low Temperature Physics 73 (1988101-136[[https://doi.org/10.1007/BF00114919]] 
  
-The Bayreuth Nuclear Demagnetization RefrigeratorKGloosPSmeibidl, C. Kennedy, A. SingsaasP. Sekowski, R. M. Mueller, F. Pobell, Journal of Low Temperature Physics 73 (1988101-136, doi.org/10.1007/BF00114919+  * A Nuclear Demagnetization Cryostat for ThermometryWBuckDHechtfischer, A. HoffmannPhysica B 165  199049-50
  
-Nuclear Demagnetization Cryostat for ThermometryWBuckDHechtfischerAHoffmannPhysica B 165  1990) 49-50+  * Compact PrNi5 nuclear demagnetization cryostat, S. A. J. WiegersTHataCC. KranenburgPG. van de HaarR. Jochemsen, G. Frossati, Cryogenics 30 (1990) 770-774, [[https://doi.org/10.1016/0011-2275(90)90274-G]] 
  
-Compact PrNi5 nuclear demagnetization cryostatSA. J. Wiegers, T. Hata, C. C. Kranenburg, P. G. van de Haar, R. Jochemsen, G. FrossatiCryogenics 30 (1990770-774, doi.org/10.1016/0011-2275(90)90274-G+  * Nuclear refrigeration and thermometry at microkelvin temperaturesFPobellJournal of Low Temperature Physics 87 (1992635–649[[https://doi.org/10.1007/BF00114919]] 
  
-Nuclear refrigeration and thermometry at microkelvin temperatures, F. Pobell, Journal of Low Temperature Physics 87 (1992) 635–649, doi.org/10.1007/BF00114919+  * Nuclear demagnetization cryostat at University of Florida Microkelvin LaboratoryJ. Xu, O. Avenel, J. S. Xia, M.-F. Xu, T. Lang, P. L. Moyland, W. Ni, E. D. Adams, G. G. Ihas, M. V. Meisel, N. S. Sullivan, Y. Takano, Journal of Low Temperature Physics 89 (1992) 719-723[[https://doi.org/10.1007/BF00694125]] 
  
-Nuclear demagnetization cryostat at University of Florida Microkelvin LaboratoryJ. Xu, O. Avenel, J. S. Xia, M.-F. XuTLangPL. MoylandW. Ni, E. D. Adams, G. G. Ihas, M. V. Meisel, N. S. SullivanYTakanoJournal of Low Temperature Physics 89 (1992719-723, doi.org/10.1007/BF00694125+  * A nuclear demagnetization cryostat for nuclear ordering of hcp solid 3He, S. Abe, M. NozawaAIkeyaHTsujii, S. InoueTMamiyaPhysica B: Condensed Matter 194–196 (199449-50[[https://doi.org/10.1016/0921-4526(94)90354-9]] 
  
-A nuclear demagnetization cryostat for nuclear ordering of hcp solid 3He, SAbeMNozawaAIkeya, H. Tsujii, S. InoueT. Mamiya, Physica B: Condensed Matter 194–196 (1994) 49-50, doi.org/10.1016/0921-4526(94)90354-9+  * Direct demagnetization cooling of high-density solid 3He, TOkamotoHFukuyamaHAkimoto, H. Ishimoto, S. OgawaPhysical Review Letters 72 (1994) 868-871[[https://doi.org/10.1103/PhysRevLett.72.868]] 
  
-Direct demagnetization cooling of high-density solid 3HeTOkamotoHFukuyamaHAkimotoHIshimoto, S. OgawaPhysical Review Letters 72 (1994) 868-871, doi.org/10.1103/PhysRevLett.72.868+  * A compact copper nuclear demagnetization refrigeratorGFrossatiPG. van der HaarMW. MeiselPRemeijer, S. C. Steel, R. Wagner, C. M. C. M. van WoerkensPhysica B: Condensed Matter 194–196 (1994) 53-54[[https://doi.org/10.1016/0921-4526(94)90356-5]] 
  
-A compact copper nuclear demagnetization refrigerator, G. FrossatiPGvan der HaarMWMeiselPRemeijerSCSteelRWagnerCMC. M. van WoerkensPhysica B: Condensed Matter 194–196 (1994) 53-54, doi.org/10.1016/0921-4526(94)90356-5+  * Nuclear demagnetization refrigerator with automatic controlpick up and data process systemAAGolubVAGoncharovVR. LitvinovVAMikheevE. YRudavskiiYATokar, A. M. UsenkoVAShvarts, Fizika Nizkih Temperatur 21 (1995974-982
  
-A. A. GolubVA. GoncharovVRLitvinovV. A. Mikheev, E. YRudavskii, Y. A. TokarA. M. UsenkoVAShvarts +  * Pressure measurement during nuclear demagnetization of BCC and HCP solid 3HeTLangPLMoylandD. A. Sergatskov, J. Xu, E. DAdams, Y. TakanoJournal of Low Temperature Physics 101 (1995) 677–681[[https://doi.org/10.1007/BF00753373]] 
-Nuclear demagnetization refrigerator with automatic control, pick up and data process system +
-Fizika Nizkih Temperatur 21 (1995) 974-982+
  
-TLangP. L. MoylandD. A. Sergatskov, J. XuEDAdamsY. Takano +  * The new cornell copper demagnetization stage, EN. SmithASawada, L. PollackK. A. Corbett, J. M. ParpiaRCRichardson, Journal of Low Temperature Physics 101 (1995) 593598, [[https://doi.org/10.1007/BF00753359]] 
-Pressure measurement during nuclear demagnetization of BCC and HCP solid 3He +
-Journal of Low Temperature Physics 101 (1995) 677681 +
-doi.org/10.1007/BF00753373+
  
-E. N. SmithASawadaLPollackKACorbettJMParpiaRC. Richardson +  * The new grenoble 100 μK refrigeratorCBäuerleJBossyYuMBunkovSNFisher, Chr GianèseHGodfrin, Czechoslovak Journal of Physics 46 (199627912792, [[https://doi.org/10.1007/BF02570382]] 
-The new cornell copper demagnetization stage +
-Journal of Low Temperature Physics 101 (1995593598 +
-doi.org/10.1007/BF00753359+
  
-C. Bäuerle, J. BossyYuMBunkovS. N. Fisher, Chr Gianèse, H. Godfrin +  * Thermodynamic description of nuclear demagnetization experiments, J. EngertPGStrchlow, Czechoslovak Journal of Physics 46 (1996) 27892790, [[https://doi.org/10.1007/BF02570381]] 
-The new grenoble 100 μK refrigerator +
-Czechoslovak Journal of Physics 46 (1996) 27912792 +
-doi.org/10.1007/BF02570382+
  
-J. EngertPGStrchlow +  * Košice nuclear demagnetization refrigerator, P. Skyba, J. NyékiEGažo, VMakroczyová, Yu. M. Bunkov, D. A. Sergackov, A. Feher, Cryogenics 37 (1997293-297, [[https://doi.org/10.1016/S0011-2275(97)00021-0]] 
-Thermodynamic description of nuclear demagnetization experiments +
-Czechoslovak Journal of Physics 46 (19962789–2790 +
-doi.org/10.1007/BF02570381+
  
-P. SkybaJNyékiEGažoVMakroczyováYu. M. Bunkov, D. A. Sergackov, A. Feher +  * Nuclear magnetic properties of aluminiumWWendlerPSmeibidlFPobellJournal of Low Temperature Physics 108 (1997) 291–304, [[https://doi.org/10.1007/BF02398716]] 
-Košice nuclear demagnetization refrigerator +
-Cryogenics 37 (1997) 293-297 +
-doi.org/10.1016/S0011-2275(97)00021-0+
  
-WWendlerPSmeibidlFPobell +  * Simple Nuclear Demagnetization Stage, V. VDmitrievIV. KosarevDV. Ponarin, R. Scheibel, Journal of Low Temperature Physics 113 (1998945949, [[https://doi.org/10.1023/A:1022579628345]] 
-Nuclear magnetic properties of aluminium +
-Journal of Low Temperature Physics 108 (1997291304 +
-doi.org/10.1007/BF02398716+
  
-V. V. DmitrievIVKosarevDVPonarinR. Scheibel +  * Nuclear cooling and spin properties of rhodium down to picokelvin temperaturesJTTuoriniemiTAKnuuttilaPhysica B: Condensed Matter 280 (2000474-478, [[https://doi.org/10.1016/S0921-4526(99)01839-6]]  
-Simple Nuclear Demagnetization Stage +
-Journal of Low Temperature Physics 113 (1998945–949 +
-doi.org/10.1023/A:1022579628345+
  
-J. TTuoriniemi, T. A. Knuuttila +  * A Versatile Nuclear Demagnetization Cryostat for Ultralow Temperature Research, WYao, T. A. Knuuttila, K. K. Nummila, J. E. Martikainen, A. S. Oja, O. V. Lounasmaa, Journal of Low Temperature Physics 120 (2000) 121–150, [[https://doi.org/10.1023/A:1004665020659]] 
-Nuclear cooling and spin properties of rhodium down to picokelvin temperatures +
-Physica B: Condensed Matter 280 (2000) 474-478 +
-doi.org/10.1016/S0921-4526(99)01839-6+
  
-W. YaoT. A. KnuuttilaKKNummilaJE. MartikainenA. SOjaO. VLounasmaa +  * Cryostat for optical observations below 1 mK and in strong magnetic fieldsRvan Rooijen, A. MarchenkovHAkimoto, OAndreevaP.van de HaarRJochemsenGFrossati, Journal of Low Temperature Physics 124 (2001497-511, [[https://doi.org/10.1023/A:1017527320225]] 
-A Versatile Nuclear Demagnetization Cryostat for Ultralow Temperature Research +
-Journal of Low Temperature Physics 120 (2000121–150 +
-doi.org/10.1023/A:1004665020659+
  
-R. van RooijenA. MarchenkovHAkimoto, O. Andreeva, P.van de HaarR. Jochemsen, G. Frossati +  * Nuclear orientation and nuclear cooling experiments in Oxford and Helsinkipart 1Progress before 1940, BBleaney, O. VLounasmaa,Notes and Records: the Royal Society Journal of the History of Science 57 (2003317-322, [[https://doi.org/10.1098/rsnr.2003.0217]] 
-Cryostat for optical observations below 1 mK and in strong magnetic fields +
-Journal of Low Temperature Physics 124 (2001497-511 +
-doi.org/10.1023/A:1017527320225+
  
-B. Bleaney, O. V. Lounasmaa +  * Nuclear orientation and nuclear cooling experiements in Oxford and Helsinki Part 2. Progress from 1945 to 1970B. Bleaney, O. V. Lounasmaa, Notes and Records: the Royal Society Journal of the History of Science 57 (2003), 323-330, [[https://doi.org/10.1098/rsnr.2003.0218]] 
-Nuclear orientation and nuclear cooling experiments in Oxford and Helsinki, part 1Progress before 1940 +
-Notes and Records: the Royal Society Journal of the History of Science 57 (2003) 317-322 +
-doi.org/10.1098/rsnr.2003.0217+
  
-BBleaney, O. VLounasmaa +  * Study of heat leaks to copper nuclear demagnetization stage, H. Nakagawa, HYano, O. Ishikawa, THata, Physica BCondensed Matter 329–333 (2003) 1606-1607, [[https://doi.org/10.1016/S0921-4526(02)02422-5]] 
-Nuclear orientation and nuclear cooling experiements in Oxford and Helsinki Part 2. Progress from 1945 to 1970 +
-Notes and Recordsthe Royal Society Journal of the History of Science 57 (2003) 323-330 +
-doi.org/10.1098/rsnr.2003.0218+
  
-H. NakagawaHYanoOIshikawaTHata +  * Direct Nuclear Demagnetization of Two Dimensional Solid 3He Adsorbed on GraphiteRMasutomiYKarakiHIshimoto, Journal of Low Temperature Physics 134 (200449–54, [[https://doi.org/10.1023/B:JOLT.0000012533.21563.b1]] 
-Study of heat leaks to copper nuclear demagnetization stage +
-Physica B: Condensed Matter 329–333 (20031606-1607 +
-doi.org/10.1016/S0921-4526(02)02422-5+
  
-RMasutomiYKaraki, H. Ishimoto +  * Construction of an ultra low temperature cryostat with an automated He-3 melting pressure thermometer, PBhupathiJCancino, H. C. Choi, Y. Lee, AIP Conference Proceedings 850 (20061571
-Direct Nuclear Demagnetization of Two Dimensional Solid 3He Adsorbed on Graphite +
-Journal of Low Temperature Physics 134 (200449–54 +
-doi.org/10.1023/B:JOLT.0000012533.21563.b1+
  
-P. Bhupathi, J. Cancino, H. C. ChoiYLee +  * Construction of a Nuclear Cooling Stage, P. Strehlow, H. NuzhaEBork, Journal of Low Temperature Physics 147 (200781-93, [[https://doi.org/10.1007/s10909-006-9300-y]] 
-Construction of an ultra low temperature cryostat with an automated He-3 melting pressure thermometer +
-AIP Conference Proceedings 850 (20061571+
  
-PStrehlowHNuzhaEBork +  * Method for cooling nanostructures to microkelvin temperatures, A. CClarkKK. SchwarzwälderTBandi, D. Maradan, D. M. Zumbühl, Review of Scientific Instruments 81 (2010103904, [[https://doi.org/10.1063/1.3489892]] 
-Construction of a Nuclear Cooling Stage +
-Journal of Low Temperature Physics 147 (200781-93 +
-doi.org/10.1007/s10909-006-9300-y+
  
-ACClarkKKSchwarzwälderTBandiDMaradanDMZumbühl +  * Setting up of a microKelvin refrigerator facility at TIFR, HRNarenRSSannabhadtiAKumarVArolkarAde Waard, GFrossati, S. Ramakrishan, Current Science 101 (201128-34]]
-Method for cooling nanostructures to microkelvin temperatures +
-Review of Scientific Instruments 81 (2010103904 +
-doi.org/10.1063/1.3489892+
  
-H. R. NarenRSSannabhadti, A. KumarVArolkar, A. de Waard, G. Frossati, S. Ramakrishan +  * The Vienna Nuclear Demagnetization RefrigeratorDHNguyen, A. SidorenkoMMüller, S. Paschen, A. Waard, G. Frossati, Journal of Physics: Conference Series 400 (2012052024, [[https://doi.org/10.1088/1742-6596/400/5/052024]] 
-Setting up of a microKelvin refrigerator facility at TIFR +
-Current Science 101 (201128-34+
  
-D. HNguyen, A. Sidorenko, M. Müller, SPaschen, A. WaardGFrossati +  * A microkelvin cryogen-free experimental platform with integrated noise thermometry, GBatey, A. Casey, M. NCuthbert, A. J. MatthewsJSaunders, A. Shibahara, New Journal of Physics 15 (2013113034, [[https://doi.org/10.1088/1367-2630/15/11/113034]] 
-The Vienna Nuclear Demagnetization Refrigerator +
-Journal of Physics: Conference Series 400 (2012052024 +
-doi.org/10.1088/1742-6596/400/5/052024+
  
-G. BateyACaseyMN. CuthbertA. J. Matthews, J. Saunders, A. Shibahara +  * Nuclear demagnetization for ultra-low temperaturesSAbeKMatsumotoCryogenics 62 (2014213-220, [[https://doi.org/10.1016/j.cryogenics.2014.04.004]] 
-A microkelvin cryogen-free experimental platform with integrated noise thermometry +
-New Journal of Physics 15 (2013113034 +
-doi.org/10.1088/1367-2630/15/11/113034+
  
-SAbeKMatsumoto +  * Dry demagnetization cryostat for sub-millikelvin helium experiments: Refrigeration and thermometry, ITodoshchenkoJ.-P. Kaikkonen, R. Blaauwgeers, P. J. Hakonen, A. Savin, Review of Scientific Instruments 85 (2014) 085106, [[https://doi.org/10.1063/1.4891619]] 
-Nuclear demagnetization for ultra-low temperatures +
-Cryogenics 62 (2014) 213-220 +
-doi.org/10.1016/j.cryogenics.2014.04.004+
  
-I. TodoshchenkoJ.-PKaikkonenRBlaauwgeers, P. JHakonen, A. Savin +  * On-chip magnetic cooling of a nanoelectronic device, D. I. BradleyAMGuénaultDGunnarssonR. P. Haley, SHolt, A. T. Jones, Yu. A. Pashkin, J. Penttilä, J. R. Prance, M. Prunnila, L. Roschier, Scientific Reports 7 (201745566, [[https://doi.org/10.1038/srep45566]] 
-Dry demagnetization cryostat for sub-millikelvin helium experiments: Refrigeration and thermometry +
-Review of Scientific Instruments 85 (2014085106 +
-doi.org/10.1063/1.4891619+
  
-D. I. BradleyA. M. Guénault, D. GunnarssonRP. HaleySHolt, AT. JonesYuAPashkin, JPenttiläJR. Prance, M. PrunnilaL. Roschier +  * Magnetic cooling for microkelvin nanoelectronics on a cryofree platform, M. Palma, D. MaradanLCasparisT.-MLiuFNMFroningD. M. ZumbühlReview of Scientific Instruments 88 (2017) 043902, [[https://doi.org/10.1063/1.4979929]] 
-On-chip magnetic cooling of a nanoelectronic device +
-Scientific Reports 7 (2017) 45566 +
-doi.org/10.1038/srep45566+
  
-M. PalmaDMaradan, LCasparisT.-M. LiuFN. M. FroningD. MZumbühl +  * Sub-millikelvin station at Synergetic Extreme Condition User FacilityZGChengJFanXJingLLu, Chinese Physics B 27 (2018070702, [[https://doi.org/10.1088/1674-1056/27/7/070702]] 
-Magnetic cooling for microkelvin nanoelectronics on a cryofree platform +
-Review of Scientific Instruments 88 (2017043902 +
-doi.org/10.1063/1.4979929+
  
-Z. G. ChengJFanXJingLLu +  * Design and expected performance of a compact and continuous nuclear demagnetization refrigerator for sub-mK applicationsRTodaSMurakawaHFukuyama, Journal of Physics: Conference Series 969 (2018) 012093, [[https://doi.org/10.1088/1742-6596/969/1/012093]] 
-Sub-millikelvin station at Synergetic Extreme Condition User Facility +
-Chinese Physics B 27 (2018) 070702 +
-doi.org/10.1088/1674-1056/27/7/070702+
  
-R. Toda, S. MurakawaHFukuyama +  * Development of a Sub-mK Continuous Nuclear Demagnetization Refrigerator, D. Schmoranzer, R. Gazizulin, S. TriqueneauxECollin, A. Fefferman, Journal of Low Temperature Physics 196 (2019261–267, [[https://doi.org/10.1007/s10909-018-02128-9]] 
-Design and expected performance of a compact and continuous nuclear demagnetization refrigerator for sub-mK applications +
-Journal of Physics: Conference Series 969 (2018012093 +
-doi.org/10.1088/1742-6596/969/1/012093+
  
-D. SchmoranzerRGazizulinSTriqueneaux, E. Collin, A. Fefferman +  * Indium as a High-Cooling-Power Nuclear Refrigerant for Quantum NanoelectronicsNYurttagülMSarsby, A. Geresdi, Physical Review Applied 12 (2019) 011005, [[https://doi.org/10.1103/PhysRevApplied.12.011005]] 
-Development of a Sub-mK Continuous Nuclear Demagnetization Refrigerator +
-Journal of Low Temperature Physics 196 (2019) 261–267 +
-doi.org/10.1007/s10909-018-02128-9+
  
-NYurttagül, M. SarsbyAGeresdi +  * Progress in Cooling Nanoelectronic Devices to Ultra-Low Temperatures, AT. JonesC. P. Scheller, J. R. Prance, Y. B. Kalyoncu, D. M. ZumbühlRP. Haley, Journal of Low Temperature Physics 201 (2020772–802, [[https://doi.org/10.1007/s10909-020-02472-9]] 
-Indium as a High-Cooling-Power Nuclear Refrigerant for Quantum Nanoelectronics +
-Physical Review Applied 12 (2019011005 +
-doi.org/10.1103/PhysRevApplied.12.011005+
  
-A. T. JonesCP. Scheller, J. RPranceYB. KalyoncuDM. ZumbühlR. P. Haley +  * Design evaluation of serial and parallel sub-mK continuous nuclear demagnetization refrigeratorsDSchmoranzer, J. Butterworth, STriqueneauxECollinAFeffermanCryogenics 110 (2020) 103119, [[https://doi.org/10.1016/j.cryogenics.2020.103119]] 
-Progress in Cooling Nanoelectronic Devices to Ultra-Low Temperatures +
-Journal of Low Temperature Physics 201 (2020) 772–802 +
-doi.org/10.1007/s10909-020-02472-9+
  
-DSchmoranzer, J. ButterworthSTriqueneauxECollinAFefferman +  * Progress in Cooling Nanoelectronic Devices to Ultra‑Low Temperatures, A. T. Jones, C. PScheller, J. R. PranceYB. KalyoncuDM. ZumbühlRP. Haley, Journal of Low Temperature Physics, 201, pages772–802 (2020) (https://doi.org/10.1007/s10909-020-02472-9)
-Design evaluation of serial and parallel sub-mK continuous nuclear demagnetization refrigerators +
-Cryogenics 110 (2020) 103119 +
-doi.org/10.1016/j.cryogenics.2020.103119+
  
-J. Yan, J. Yao, V. Shvarts, R.-R. Du, X. Lin +  * Cryogen-free one hundred microkelvin refrigerator, J. Yan, J. Yao, V. Shvarts, R.-R. Du, X. LinReview of Scientific Instruments 92 (2021) 025120, [[https://doi.org/10.1063/5.0036497]] 
-Cryogen-free one hundred microkelvin refrigerator +
-Review of Scientific Instruments 92 (2021) 025120 +
-doi.org/10.1063/5.0036497+
  
-S. Takimoto, R. Toda, S. Murakawa, H. Fukuyama +  * Construction of Continuous Magnetic Cooling Apparatus with Zinc-Soldered PrNi5 Nuclear Stages, S. Takimoto, R. Toda, S. Murakawa, H. FukuyamaJournal of Low Temperature Physics 208 (2022) 492–500, [[https://doi.org/10.1007/s10909-022-02801-0]] 
-Construction of Continuous Magnetic Cooling Apparatus with Zinc-Soldered PrNi5 Nuclear Stages +
-Journal of Low Temperature Physics 208 (2022) 492–500 +
-doi.org/10.1007/s10909-022-02801-0+
  
  
  
-==== Ultralow temperature refrigerators ==== 
  
-  * 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 
-  * Cryogen free one hundred micro Kelvin refrigerator, Jiaojie Yan, Jianing Yao, Vladimir Shvarts, Rui Rui Du and Xi Lin, Rev. Sci. Instrum.92, 025120 (2021)  https://doi.org/10.1063/5.003649  https://arxiv.org/abs/2010.04472v2  
  
wiki/demag_papers.1668206860.txt.gz · Last modified: 2022/11/11 22:47 by henri.godfrin@neel.cnrs.fr

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