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Cryogenics 1991: Vol 31 Index PDF

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Index to volume 31 (1991) Articles (titles in italics refer to Research and technical notes) January (pp 1 — 72) Automated temperature regulation system application to some high T, for adiabatic demagnetization superconductors Thermal conductivity of evacuated perlite refrigerators R.W. Willekers, H.C. Meijer, F. Mathu at low temperatures as a function of G. Bernstein, S. Labov, D. Landis, N. and H. Postma 168-173 load and load history Madden, |. Millet, E. Silver and P. Liquid hydrogen condenser and current W.P. Dubé, L.L. Sparks and A.J. Slifka Richards 99-101 lead designs for liquid hydrogen critical 3-6 Heat capacity and thermal expansion of current measurements of Radiation resistance of polymer Zerodur and Zerodur M at low superconductors composites at 77 K: effects of temperatures Y. lwasa 174-177 reinforcing fabric type, specimen S.J. Collocott and G.K. White 102-104 Relation of critical current density to thickness, radiation type and irradiation Dependence of critical current density on diamagnetic magnetization in atmosphere grain morphology in BiCaSrCu20, polycrystalline BiPbSrCaCuO S. Egusa 7-15 ceramic Y.G. Wang, S.L. Yuan, Y. Yang, X.Z. Magneto-resistance of a highly stable D.A. Cardwell, J.W. Cockburn, L. Xiong and G.C. Han 178-182 industrial-grade platinum resistance Cowey and H. Jones 105-109 Excess magnetization due to thermometer between 20 and 240 K Stability analysis of a forced-flow cooled interfilamentary proximity coupling in K. Nara, H. Kato and M. Okaji 16— 20 superconducting coil: numerical Nb — Ti multifilamentary wires Dynamic stability of edge-cooled simulation of multiple stability N. Harada, Y. Mawatari, O. Miura, Y. superconducting tapes A. Kamitani, T. Amano, S. Sekiya and Tanaka and K. Yamafuji 183-191 J. Schwartz, J.P. Friedberg and J.E.C. A. Ohara 110-118 General criterion for intrinsic stabilization Williams 21 —32 Novel magnetometer and the interpretation of superconducting composites with Effect of starting materials on the critical of low field magnetic hysteresis of high high resistive matrix parameters of superconducting T,. superconductors P. Maccioni and B. Turck 192-203 TiCaBaCuO compounds G.E. Gough, M.S. Colclough, D.A. Cool-down efficiency of circulation type |. Kirschner, S. Leppavuori, R. Laiho, O'Connor, F. Wellhofer, N.McN. Alford superconducting devices A.D. Caplin, |. Halasz, T. Porjesz, A. and T.W. Button 119-127 S.P. Gorbachev and A.A. Krikunov Uusimaki, G. Zsolt, E. Lahderanta, T. Effect of geometrical deformations on the 204 —- 208 Karman, J. Laverty and Gy. Kovacs strength and homogeneity of magnetic Effective passivation of YBaCuO 33-40 fields trapped in superconducting superconducting bridges by photoresist 77 -—4.2 K downlead concept based on cylinders overlayers thin-film BiCaSrCu oxide S.H. Dietzfelbinger and M.G. Richards G.S.N. Reddy, A.K. Gupta, V.S. Tomar, W.N. Lawless 41 — 47 128-131 N. Khare, V.N. Ojha and D.K. Walia High gain micropower amplifier for Sidelobe supression in small Josephson 209-211 cryogenic applications junctions C.H. Downey 48 -— 50 R.L. Peterson 132-135 Mechanical characteristics of NdFeB Cryogenic grinding technology for magnets at low temperature traditional Chinese herbal medicine P. Vedrine, P. Tixador, Y. Brunet, J.C. Simo Li, Shuangyan Ge, Zhongping April (pp 217 — 324) Bobo, A. Fevrier and A. Leriche 51-53 Huang, Qun Wang, Haoping Zhao and Low temperature calorimetry using an Huaiyu Pan 136-137 Low temperature mechanical and thermal optical heating method Reliable low-temperature NMR cell for properties of liquid crystal polymers P. Gutsmiedl, Chr. Probst and K. Andres pressure studies D. Evans and J.T. Morgan 220-222 54-57 N.S. Sullivan, C.M. Edwards and D. Microscopic aspects of solute — solvent Simple and inexpensive cryogenic Zhou 138-139 interaction in doped polymer systems bolometers investigated via hole burning G. Gallinaro, F. Gatti and S. Terreni spectroscopy 58-60 W. Richter, S. Reul and D. Haarer New °He/“He refrigerator 223 — 227 G. Dall’Oglio, L. Pizzo, L. Piccirillo and March (pp 145 — 216) Thermal conductivity of modified epoxy L. Martinis 61 —63 resins with different cross-link densities Growth of vapour bubbles from artificial Numerical model for cooling a gravitational at low temperatures nucleation sites wave detector below 1 K M. Jackel, M. Miller, A. Licea Claverie R. Rammig and R. Weiss 64-69 M. Bassan, E. Coccia, N. Menci and |. and K.F. Arndt 22—8 23 0 Modena 147 — 152 Fatigue behaviour of polymers Effect of primary coil size on eddy current G. Hartwig and S. Knaak 231 — 233 February (pp 73 — 144) decay resistivity measurements Fracture energy of polymers at low K.T. Hartwig, C.Y. Hua and L.C temperatures He Il flowmetering McDonald 153-158 T. Saatkamp and G. Hartwig 234-237 S.W. Van Sciver, D.S. Holmes, X. Deformation properties of indium-based Thermal conductivity of fibre composites Huang and J.G. Weisend II 75-86 solders at 294 and 77 K at low temperatures Realization of the lambda transition M. Plétner, B. Donat and A. Benke P.G. Klemens 238 — 240 temperature of liquid “He 159-162 Thermal conductivity of filled epoxy Naihao Song, C.S. Hong, Yuzhu Mao, Vibration test cryostat composites Peng Lin, Qinggeng Zhang and Liang R. Schlegelmilch 163 — 165 E.E. Ustjushanin 241 — 243 Zhang 87-93 Magnetocaloric effect in HoCo2 compound Thermal expansion of carbon fibre Plantinum NMR thermometry in high S.A. Nikitin and A.M. Tishin 166 — 167 composites with thermoplastic matrices magnetic fields Calorimetry by means of the relaxation G. Schwarz, F. Krahn and G. Hartwig D. Candela and D.R. McAllaster 94-98 and dual-slope methods below 1 K: 244 — 247 Cryogenics 1991 Vol 31 December 1073 Index Fatigue properties of unidirectional carbon Temperature dependent stability and Achievement of high current density in fibre composites at cryogenic protection parameters in an adiabatic Nb — Ti superconducting multifilamentary temperatures superconducting magnet wires by introducing designed artificial K. Pannkoke and H.-J. Wagner J.N. Brown IV and Y. lwasa 341 — 347 pins 248 — 251 Breakdown of superconductivity in a zinc K. Yamafuji, N. Harada, Y. Mawatari, K. Cryogenic mechanical response of carbon whisker with controllable quasiparticle Funaki, T. Matsushita, K. Matsumoto, fibre reinforced plastics with flooding O. Miura and Y. Tanaka 431 —438 thermoplastic matrices to quasi-static X. Yang and R. Tidecks 348 —- 353 Preparation of 110 K BiPbSrCaCuO thin loads Hysteresis losses in hollow films by d.c. magnetron sputtering and K. Ahiborn 252 — 256 superconducting filaments and in their transport properties Durability of carbon fibre reinforced multifilament systems Y.H. Wang, L. Li, Y.Z. Zhang, Y.Y. Zhao plastics with thermoplastic matrices J.A. Eikelboom and L.J.M. van de and P. Xu 439-443 under cyclic mechanical and cyclic Klundert 354 — 362 Critical energy of thermally insulated thermal loads at cryogenic temperatures Apparatus for calorimetric measurement of composite superconductors K. Ahiborn 257 — 260 a.c. losses in superconductors L. Malinowski 444 —- 449 Three-dimensional fabric reinforced J.A. Eikelboom 363 — 365 Investigations and developments in the plastics for cryogenic use Patterning of high T, films for critical field of superconductive turbogenerators Y. twasaki, J. Yasuda, T. Hirokawa, K current measurements 1.A. Glebov and L.I. Chubraeva Noma, S. Nishijima and T. Okada W.K. Schomburg, M. Heidinger, G 450-452 261 — 264 Nother, J. Reiner, V. Windte, W. New silver powders with large surface Damage in carbon fibre reinforced epoxy Schauer and K. Kadel 366 — 368 area as heat exchanger materials after thermal cycling and T-fatigue SQUID magnetometer designed for high T. W. Itoh, A. Sawada, A. Shinozaki and loading superconductors Y. Inada 453-455 H. Eggers, W. Hartung and S. Knaak M. Kohli and J.P. Harrison 369 —- 372 Sealing performance of gaskets and 265 — 268 Direct observation of magnetic flux flanges against superfluid helium Boundary layer induced modification of inhomogeneity in the vicinity of high H. Ishimaru and H. Yoshiki 456 — 458 thermal and mechanical properties of temperature superconductors Experimental model of the TG-5000 flux epoxy resin composites A.l. Belyaeva, S.V. Vojtsenya and V.P. pump M. Jackel and W. Scheibner 269 — 272 Yuriyev 373-378 V.V. Vasil’ev, ,V.N. Isaykin, O.D. Radiation damage of organic composite Intergranular flux creep in c-axis aligned Konzyuba, E.B. Klimova, V.G. material for fusion magnet ceramic RBa2Cu30, (R = Y, Dy and Ho) Kozorezov, V.A. Kulagin, A.A. Markov, S. Nishijima, T. Okada, T. Hirokawa, J N. Nakamura and M. Shimotomai V. Ya. Pakhomov, A.N. Romanov, B.A. Yasuda and Y. lwasaki 273 —-2 76 379-383 Serebryakov, N.A. Sysoev and A.A. Insulation irradiation test programme for Behaviour of quasi-optical dielectric Forostenko 459 — 460 the Compact Ignition Tokamak resonator with high 7. superconductors T.J. McManamy, G. Kanemoto and P in the temperature range 10 —-3 00 K Snook 277 — 281 N.T. Cherpak and A.Ya. Kirichenko Use of resin composites for cryogenic 384 — 387 July (pp 485 — 692) tankage Superconductivity of Au —Sn eutectic M.T. Callaghan 282 — 287 solder Superconductor stability ‘90: a review Design of support strap with advanced D. Dummer, P. Andersen and W. L. Dresner 489 —-498 composite for cryogenic application Weyhmann 388 — 389 Stabilization, protection and current T. Hirokawa, J. Yasuda, Y. lwasaki, K Reduced sensitivity of Nb3Sn epoxy- density: some general observations and Noma, S. Nishijima and T. Okada impregnated cable to transverse stress speculations 288 — 291 B. Jakob, G. Pasztor, M. Bona and A. M.N. Wilson 499 — 503 Evaluation of structural integrity of Asner 390 — 391 Probability of premature quenches due to superconducting magnet coils Boiling heat transfer to liquid helium from conductor motion in superconducting G.W. Knight and D. Evans 292 — 297 surface with pin-fins windings Basic material data and structural analysis H. Ogata, H. Kuwahara, H. Noguchi and T. Takao, O. Tsukamoto and S. Honjo of fibre composite components for T. Nakagawa 392 —393 504 — 509 space application Design criteria for stability in cable-in- H. Bansemir and O. Haider 298 — 306 conduit conductors Research and development of insulating materials for large helical device June (pp 397 — 484) L. Bottura, N. Mitchell and J.V. Minervini 510-515 T. Okada, S. Nishijima, K. Takahata and Simulation of tensile strength of Stability of superconductors cooled J. Yamamoto 307 —311 anisotropic fibre-reinforced composites internally by He Il heat transfer influence of test geometry on tensile at low temperature S.W. Van Sciver 516-520 strength of fibre reinforced plastics at H.H. Abdelmohsen 399 — 404 Stabilization of Cu — Ni/Nb — Ti cryogenic temperatures Thermal conductivities of magnetic superconductors by MgO powder E. Tschegg, K. Humer and H.W. Weber intermetallic compounds for cryogenic S. Yokoyama, S. Yamamoto, S. 312-318 regenerator Nakamura and T. Yamada 521 — 523 Fabrication techniques for thermoplastic M. Ogawa, R. Li and T. Hashimoto Stability of superconducting magnetic composites 405-410 shield R. Weiss 319-322 Research on chill-down time of liquid K. Seo, S. Nishijima, T. Okada and K. hydrogen pump Katagiri 524 —- 527 May (pp 325 — 396) T.-Y. Lin 411-416 Influence of copper to superconductor Possible design for a thin wire resistance ratio on stability of superconductors Measurement device with cold oscillator thermometer with isotropic N. Amemiya and O. Tsukamoto for measuring vapour content in helium magnetoresistance 528 — 532 two-phase flow K. Nara, H. Kato and M. Okaji Dynamic stability of superconductors H. Katheder and M. Siisser 327 — 329 417-420 cooled by pool boiling Flow patterns of two-phase helium in Versatile system for point contact T. Ito and H. Kubota 533 — 537 horizontal channels conductance spectroscopy Stability measurements on the 50 kA A.\. Alexeyev, Yu. P. Filippov and |.S H. Srikanth and A.K. Raychaudhuri SMES conductor Mamedov 330 — 337 421-424 J.M. Pfotenhauer 538 — 542 Flight performance of a rocket-borne “He Instrumentation for highly sensitive Stability measurements of three- refrigerator measurement of magnetocaloric effect: component Nb — Ti superconducting L. Duband, D. Alsop, A. Lange, S. application to high T,. superconductors wires Hayata, T. Matsumoto and S. Sato H. Kato, K. Nara and M. Okaji Y. Tanaka, K. Yamada, T. Sano and K. 338 — 340 425-430 Doi 543 —- 546 1074 Cryogenics 1991 Vol 31 December Index Numerical analysis of thermal stability of Experimental results of the Nb3Sn demo 3He/*He mixing chamber for an ultralow an immersion-cooled, pancake type poloidal coil (DPC-EX) temperature gravitational wave antenna superconducting coil Y. Takahashi, K. Yoshida, T. Ando, T. E. Coccia and |. Modena 712-714 S. Okada, J.-K. Kim, T. Aihara and K. Hiyama, H. Tsuji, M. Nishi, E. Tada, K. Minimum specimen size for composite Kuroda 547-550 Okuno, K. Koizumi, H. Nakajima, T. testing at low temperature Influence of mass flow rate and hydraulic Kato, M. Sugimoto, T. Isono, K. H.H. Abdelmohsen 715-719 perimeter on the transient stability Kawano, Y. Kamiyauchi, J. Yoshida, H. High T, superconductor voltage — current margin of a forced flow cooled Ishida, E. Kawagoe, M. Konno and S simulator and the pulse method of superconductor Shimamoto 640 — 644 measuring critical current K. Agatsuma 551 — 556 Transient pressure increase in cable-in- L.F. Goodrich 720-727 Theory of thermal hydraulic quenchback in conduit conductor exposed to pulsed Magnetic separation of superconductors cable-in-conduit superconductors magnetic fields F.J. Blunt and A.M. Campbell 728 — 731 L. Dresner 557 — 561 V.i. Babitch, V.V. Churbanov, C. Quantitative determination of percentage Quench protection of superconducting Schmidt and H. Tateishi 645 —- 650 superconductor in a new compound magnet using ZnO arrester Stability and a.c. loss of Nb—Ti wire for A.M. Campbell, F.J. Blunt, J.D. Johnson T. Ishigohka and Y. Kushiro 562 — 565 low excitation superconducting and P.A. Freeman 732 — 737 Estimation of maximum voltage of generator Influence of copper location on stability of superconducting magnet systems during K. Ohmatsu, M. Nagata and K. composites made of superconducting a quench Takahashi 651 —654 filaments in a highly resistive matrix T. Tominaka, N. Hara and K. Kuroda Tests on a 30 kVA class superconducting P. Maccioni and B. Turck 738-748 566 — 569 transformer Study on the intrinsic thermal stability of Compact 17 T epoxy-impregnated magnet E.S. Yoneda, |. Tashiro, M. Moroshi and anisotropic thin film superconductors without bore tube D. Ito 655-659 with a line heat source M. Urata, H. Maeda, N. Aoki and G. Development of superconductors for a R.C. Chen and H.S. Chu 749-755 Uchiyama 570-574 70 MW superconducting generator Cryoelectrophoresis of superconducting Stability issues in high performance Y. Matsunobu, K. Yamaguchi, N. Maki, YBa2Cu307-, in liquid nitrogen superconducting magnets N. Tada, Y. Yagi and R. Shiobara R. Eggenhoffner 756 — 759 Y. lwasa 575-579 660 — 663 Electrical contact to high T, Stability of high current density magnets Stability tests against thermal disturbances superconductor with narrow liquid helium channel on rotating superconducting field Yue Sun and Hongchuan Yang cooling windings 760 — 762 Yan Luguang, Yi Changlian and Qin Jie T. Onishi, K. Kaiho, N. Higuchi, |. Ishii, Calibration constant calculations for 580 — 584 H. Nomura, H. Tateishi, K. Arai, K. magnetic susceptibility measurements Statistical study on stability and quench Satoh and M. Inukai 664 —- 667 A.F. Khoder and M. Couach 763-765 protection of pool cooled Normal zone propagating characteristics superconducting magnets and stability criterion of the September (pp 773 — 852) O. Tsukamoto, N. Amemiya, H. Kagami superconducting field windings for a test and S. Yamamura 585 — 589 rotor Development of an SMA electrode to Static and dynamic characteristics of K. Kaiho, H. Nomura, H. Higuchi, |. Ishii, match type 316LN base metal cryogenic Nb3Ge layers for rapid superconducting H. Tateishi, K. Arai, T. Onishi, M. properties power switches Kumagai and T. Imura 668 —- 673 T.A. Siewert and C.N. McCowan |. Hlasnik, J. Kokavec, K. Fréhlich and Temperature pulse evolution in a three 775-779 L. Jansak 590-593 dimensional medium with temperature Correlation of mechanical properties with Instability in kiloamp class a.c. dependent heat conductivity: application metallurgical structure for 18Ni 200 superconducting cables to high temperature superconductor grade maraging steel at room and K. Funaki, M. Nakashima, M. lwakuma, composites cryogenic temperatures M. Takeo and K. Yamafuji 594 —- 597 A.A. Akhmetov, V.A. Altov, 0.V. J.A. Wagner 780 — 785 Quench characteristics of a.c. Filatova and V.V. Sytchev 674-675 Work and heat flows in a pulse-tube superconducting coils Preparation of aligned high T, refrigerator S. Akita, H. Kasahara and S. Torii superconducting composite tape by laser M. Kasuya, M. Nakatsu, Q. Geng, J. 598 — 600 deposition process on metallic substrate Yuyama and E. Goto 786 — 790 Numerical analysis of a.c. losses in N. Sadakata, K. Onabe, Y. lijima, N. Regenerator effectiveness of a two-stage superconductors Futaki, O, Kohno and Y. Ikeno Gifford - McMahon cryogenerator: H. Hashizume, T. Sugiura, K. Miya, Y. 676-679 experimental results Ando, S. Akita, S. Torii, Y. Kubota and Effects of transverse heat transfer on A. Baldini 791-795 T. Ogasawara 601 — 606 normal zone propagation in metal-clad Carbon and thick film chip resistors as Frequency dependence of quench current high temperature superconductor coil thermometers for heat capacity of a.c. superconducting winding for tape measurements below 1 K linear induction motor M.K. Chyu and C.E. Oberly 680 —-6 86 M.L. Siqueira, R.J. Viana and R.E. Rapp N. Amemiya, T. Sugita, T. Takao, O. Transport current properties of silver 796 — 800 Tsukamoto, Y. Tanaka, K. Oishi, H. sheathed BiPbSrCaCuO wire and coil Insert for regulating temperatures between Shimizu, S. Sato, Y. Yoneyama and S. K. Sato, T. Hikata, M. Ueyama, H 2 and 1000 K in a liquid helium dewar: Yatabe 607-611 Mukai, N. Shibuta, T. Kato and T description and cryogenic analysis A.c. stability and a.c. loss in composite Masuda 687 — 689 A. Barlet, J.C. Genna and P. Lethuillier superconductors Effect of light irradiation on S—N 801-805 L.J.M. van de Klundert 612 —617 transition in BSCCO superconductor Co-axial current lead for 14 T split Transient heat transfer to a closed volume N. Shimizu, T. Yoshida and K. Horii solenoid magnet of He | and its influence on 690 —- 692 K. Maehata, M. Wake and H. superconductor stability Hirabayashi 806 —- 810 C. Schmidt 618 —623 August (pp 693 — 772) EuSe as magneto-optical active coating for Heat transport in insulation of cables use with the high resolution Faraday cooled by superfluid helium Friction and wear of polymeric materials at effect C. Meuris 624-628 293, 77 and 4.2 K Th. Schuster, M.R. Koblischka, B. Stability and protection of Tore Supra P.C. Michael, E. Rabinowicz and Y Ludescher, N. Moser and H. Kronmiller superconducting coils Iwasa 695 — 704 811-816 B. Turck 629-633 Thermal counterflow in a diverging Normal zone propagation in adiabatic Stability tests on R&D superconductors for channel: a study of radial heat transfer superconducting magnets. Part |: normal the Large Helical Device in He Il zone propagation velocity in T. Mizo, J. Yamamoto, K. Takahata, N. J.F. Kafkalidis and J.T. Tough superconducting composites Yanagi and O. Motojima 63—4 63 9 705-711 S.P. Zhao and Y. |lwasa 817 —-8 25 Cryogenics 1991 Vol 31 December 1075 Index Influence of loading — unloading treatment Characterization of some chip resistors at Evaluation of CMOS timer integrated at room temperature on superconducting low temperatures circuits for cryogenic use properties of Nb3Sn superconducting A. Briggs 932-935 T. Haruyama and R.K. Kirschman composite Review of stability in high temperature 1055 — 1064 W. Zhang, S. Ochiai and K. Osamura superconductors with emphasis on flux Behaviour of power MOSFETs at cryogenic 826 — 832 jumping temperatures influence of nickel substitution on flux S.L. Wipf 936-948 R. Karunanithi, A.K. Raychaudhuri, Z. pinning and critical currents in History effect of critical current density Sziics and G.V. Shivashankar YBa2Cu307-» and weak links in superconducting 1065 — 1069 G.K. Bichile, D.G. Kuberkar, K.M BiPbSrCaCuO tape wires Measurements of the viscosity of Jadhav, S.S. Shah and R.G. Kulkarni T. Matsushita, E.S. Otabe, B. Ni, T. compressed liquid air at temperatures 833 — 838 Hikata and K. Sato 949-953 between 70 and 130 K Regenerator performance with sinusoidal Influence of thermal cycling on critical D.E. Diller, A.S. Aragon and A. flow current of superconducting silver- Laesecke 1070-1072 D.E. Daney 839 -—8 41 sheathed high T, oxide wires S. Ochiai, K. Hayashi and K. Osamura October (pp 853 — 924) 954 - 961 Non-linear thermal relaxation waves in Regenerator performance with noble gas high T,. superconductors carrying current Keywords T.V. Bandos 962-968 muxtures D.E. Daney 854 — 861 Frictional heating of magnet structural Thermodynamic optimization of materials at cryogenic temperatures Alloys A. lwabuchi and K. Komuro 969 - 974 Electrodes regenerators S.K. Das and R.K. Sahoo 862 — 868 Off-axis sputtered Y;Ba2Cu307-, films on Welds 775-779 Rhodium — iron resistance thermometer NdGaO; Calorimetry T. Scherer, R. Herwig, P. Marienhoff, M. Measuring methods with fused-silica coil frame O. Tamura and H. Sakurai 869 —-8 73 Neuhaus, A. Vogt and W. Jutzi High T. superconductors 168 173 Low temperature resistance of p-InSb(Mn) 975-978 Superconductors S.A. Obukhov, B.S. Neganov, Yu.F Heat transfer crisis during liquid nitrogen A.c. losses 363 — 365 Kiselev, A.N. Chernikov, V.S. Vekshina, cooling of high temperature Thermometry N.1. Pepik and A.N. Popkov 874-877 superconductor Measuring techniques 54 — 57 Mechanical properties and fracture Yu. A. Kirichenko, S.M. Kozlov, K.V. Carbon fibres behaviour of polyimide (SINTIMID) at Rusanov and E.G. Tyurina 979 —-9 84 Epoxy resins cryogenic temperatures Force-cooled current leads for the force- Mechanical properties 265 — 268 E. Tschegg, K. Humer and H.W. Weber cooled superconducting magnets of the Thermoplastics 878 — 883 Nuclotron Low temperature studies 257 — 260 New technique for measuring the dynamic V.D. Bartenev and Yu. A. Shishov Mechanical properties 252 — 256 Young’s modulus between 295 and 6 K 985 —-9 87 Ceramic oxides J. Zhang, A. Nyilas and B. Obst High T. superconductors for SQUID Flux creep 884 - 889 detection coils High T. superconductivity 379 — 383 Distortion of liquid helium surface in R.B. Stephens and R.L. Fagaly High T. superconductivity inhomogeneous magnetic field 988 —- 992 Critical currents 954 —- 961 J. Frost, M.J. Lea and P. Fozooni Performance of all-metal demountable Superconductivity 890 —-8 91 cryogenic seals at superfluid helium Critical current density 949 — 953 Problems of practical use of temperatures Ceramics thermoacoustics under liquid helium L.J. Salerno, A.L. Spivak and P. Kittel Heat transfer storage conditions 993-995 Pool boiling 979 —-9 84 A.G. Kuzmina and S.P. Gorbachev Chip resistors 892-895 December (pp 1005 — 1084) Thermometry Solubility of CFCl3, ,CHCl3, CCl4 and Magnetoresistance 932 —- 935 C2HCls in liquid nitrogen at 77.4 K Effectiveness of corrugated surfaces in Composites B Dabrowska 896 - 899 limiting the rate of evaporation of Carbon fibres Fabrication of Bi-based oxide cryogenic liquids Thermal properties 244 — 247 superconductors by YAG laser |. Kececioglu 1008 — 1019 Fatigue 248 — 251 irradiation Application of radio frequency method to Epoxy resins M. Yuyama, H. Wada, K Itoh and T measurements in cryogenics Low temperature studies 282 — 287 Kuroda 900 — 905 A.|. Alexeyev, Yu.P. Filippov, |.S. Thermal conductivity 241 — 243 Effect of epoxy debonding and cracking on Mamedov and S.V. Romanov Fibres Stability of superconducting composites 1020-1029 Space cryogenics 298 —- 306 V.1. Dotsenko and |.F. Kislyak 906 —-912 Arcsecond grating drive mechanism for Mechanical properties Intragrain critical current density of operation at 4 K Epoxy resins 399-404, 715-719 superconducting compounds of the type C.H. Downey, J.R. Houck, M.J. Physical properties (Pr,¥ 1 ~.)BazCu307_, Kubitschek and R.W. Tarde Design applications 288 — 291 L.S. Vaidhyanathan and G. Rangarajan 1030 — 1037 Polymers 913-917 Thermodynamic analysis of processes in Materials characterization 7-15 Novel large volume horizontal cryostat refrigerators using superfluid helium (He Radiation damage D.G. Blair, P.J. Turner, J. Devlin, F.J ll) by means of T—q diagram Fusion magnets 273 —- 276 van Kann, M.A. Brennan and C. Shusen V.U. Sidyganov, E.V. Ametistov and Superconductivity 918-920 P.M. Kupchikhin 1038 — 1043 Epoxy resin 906-912 Millikelvin heater using a light emitting Theoretical analysis and performance Superconductor stability diode and fibre optics investigation of Stirling cycle Copper 738-748 P.B. Chilson, J.C. Clark and G.G. lhas regenerators Superconductors 921-923 M.D. Atrey, S.L. Bapat and K.G. High 7, superconductivity 674 —675 Narayankhedkar 1044 —- 1052 Nb3Sn 826 —-8 32 November (pp 925 — 1004) Simple technique for increasing the Stability 192-203 conductivity of copper for current lead Thermal conductivity Effect of channel geometry on heat conductors Fibres 238 — 240 transfer in He Il chamber B.V. Elkonin and J.S. Sokolowski Thermoplastics H. Tsuruga and H. Kobayashi 927 — 931 1053 — 1054 Fabrication 319 —-322 1076 Cryogenics 1991 Vol 31 December Copper Flux creep Thermoacoustics Superconductor stability Ceramic oxides Pressure vessels 892 — 895 Composites 738 — 748 High T. superconductivity 379 — 383 Thermodynamics Critical current density Flux penetration Refrigerators 1038-1043 Superconductivity Faraday effect Thermometry Ceramic oxides 949 —- 953 High T, superconductors 811 — 816 Temperature regulation 801 — 805 Critical currents Flux pinning High T. superconductivity Ceramic oxides Magnetization behaviour Ceramic oxides Granular superconductors 105 -— 109 Critical currents 178— 182 Critical currents 954 — 961 High T, superconductivity Superconductivity Critical currents Ceramic oxides 954-961 Multifilamentary wires 431 — 438 SQUIDs 913-917 SQUIDs 913-917 Superconductors Measuring techniques High T, superconductors Critical currents 833 — 838 Epitaxial ferrogarnet film 373 —378 Magnetometers 119-127 Force-cooling SQUIDs Measuring methods 720-727 Superconducting magnets Low temperature electronics Magnetization behaviour Current leads 985 — 987 988-992 Flux pinning 178-182 Fracture behaviour Superconducting cables Superconductivity Polymers Turbogenerators 450 —- 455 Josephson junctions 132-135 Mechanical properties 878 — 883 Superconductors Zinc 348 — 353 Friction Critical currents 687 — 689 Superconductors Superconducting magnets Heat transfer 680 —- 686 Flux pinning 833 — 838 Quench 969 —-974 S—N transition 690 —- 692 High T. superconductivity 687 — 689 Gravity wave antennas Starting compounds 33 — 40 Thin films Cryostats Thin films High T, superconductivity 366 — 368 Helium 918-922 BiPbSrCaCuO 439-449 Critical energies Heat capacity High T. superconductors Superconductors Thermal properties Calorimetry Superconductor stability 444 —449 Glass-ceramic 102-104 Measuring methods 168-173 Cryocoolers Thermometry Critical currents Regenerators Resistors 796 — 800 Measuring methods 720 — 727 Stirling cycle 1044 — 1052 Heat exchangers Electrical contacts Cryogenerators Regenerators Resistivities 760 — 762 Refrigerators Sinusoidal flow 839 — 841 Faraday effect Gifford - McMahon cycle 791 — 795 Heat transfer Flux penetration 811-816 Cryogens Helium Magnetic materials Cryomedicine Boiling surfaces 392 — 393 Magnetic separation 728 — 731 Physical properties 136 — 137 Gorter — Mellink model 705-711 Magnetometers Flow rate Superfluidity 927 — 931 Critical currents 119-127 Measuring methods 1020-1029 Nitrogen Materials characterization Cryomedicine Hydrogen 64-69 Thermal cycling 209-211 Cryogens Pool boiling Normal zone propagation Physical properties 136 — 137 Ceramics 979 —-984 Thermal stability 962 —- 968 Cryostats Refrigeration Hydrogen Helium Pulse-tube refrigerators 786 — 790 Heat transfer Gravity wave antennas 918 — 922 Silver powders Nitrogen 64-69 Mathematical models Ultralow temperatures 453 — 455 Hydrogen Refrigerators 147 — 152 Superconductors Rocket engines 411-416 Tunneling High T, superconductivity Instrumentation Spectroscopy 421-424 680 — 686 Nuclear magnetic resonance Strain gauges Laser ablation 676-679 138-139 Young’s modulus 884 — 889 Magnetic stability 618 —623 Hysteresis Vibration testing Stability 547 — 550 Superconductors Space cryogenics 163-165 Superfluid helium 624 —628 Hollow filaments 356 — 362 Current leads Helium Instrumentation Magnets Cryostats Hydrogen Solenoids 806 — 810 Gravity wave antennas 918 — 922 Nuclear magnetic resonance 138 — 139 Residual resistance ratio Gravitational waves Low temperature electronics Annealing 1053 — 1054 Dilution refrigerators 712—714 Amplifiers 48 — 50 Superconducting magnets Heat transfer CMOS 1055 - 1064 Force-cooling 985 — 987 Boiling surfaces 392 — 393 Thick-film resistors 58 — 60 Epoxy resins Gorter — Mellink model 705-711 Magnetocaloric effect Carbon fibres Superfluidity 927 —931 High T, superconductivity 425 — 430 Mechanical properties 265 — 268 Leaks Measuring techniques Composites Seals 993-995 High 7, superconductors 384 — 387 Low temperature studies 282 — 287 Magnetic fields Insulation Mechanical properties 399 — 404, Surface studies 890 — 891 Fibre-reinforced plastics 715-719 Measuring methods Mechanical properties 312-318 Thermal conductivity 241 — 243 Flow pattern map 330 — 337 Materials studies Thermal conductivity Measuring instruments Design application 307 — 311 Low temperature studies 228 — 230 Two-phase flow 327 — 329 Tokamak Thermal properties Measuring methods Radiation damage 277 — 281 Mechanical properties 269 — 272 Flowmeters 75 — 86 Josephson junctions Faraday effect Refrigeration Superconductivity High T. superconductors Cryopump 61-63 Critical currents 132-135 Flux penetration 811-816 Regenerators LEDs Fibre-reinforced plastics Noble gases 854 —- 861 Optical fibres Insulation Space cryogenics Thermal conductivity 921 —923 Mechanical properties 312-318 Refrigerators 338 — 340 Leaks Thermal properties Superfluidity Helium Mechanical properties 261 — 264 Flanges 456 — 458 Seals 993-995 Cryogenics 1991 Vol 31 December 1077 Index Low temperature electronics Magnetic properties Measuring methods High T.. superconductivity Calibration 763 —-7 70 Resistivity 153 — 158 SQUIDs 988 —-9 92 Measuring instruments Polymers Instrumentation Helium Low temperature studies 695 — 704 Amplifiers 48 — 50 Two-phase flow 327 —329 Superconductors CMOS 1055 — 1064 Measuring methods Superconductor stability 21 — 32 Thick-film resistors 58 — 60 Calorimetry Thermal conductivity MOSFETs High T. superconductors 168 — 173 Materials characterization 3-6 Switching 1065 — 1059 Cryogens Polymers Low temperature studies Flow rate 1020-1029 Composites Epoxy resins Helium Materials characterization 7-15 Thermal conductivity 228 — 230 Flowmeters 75 — 86 Fracture behaviour Polymers High T, superconductors Mechanical properties 878 — 883 Fatigue 231 — 233 Critical currents 720-727 Fracture energy Physical properties 695 — 704 Physical properties Low temperature studies 234 — 237 Magnetic fields Resistivity 153-158 Low temperature studies Helium Superconductors Fatigue 231 — 233 Surface studies 890 —-8 91 Efficiency 204 —- 208 Physical properties Materials characterization Measuring techniques Low temperature studies 695 — 704 Thin films 41 —47 High T. superconductivity Spectroscopy Physical properties Epitaxial ferrogarnet film 373-378 Photochemical hole burning 223 — 227 Mode! 128— 131 Instrumentation Thermal properties Thermometers High 7, superconductors 384 — 387 Mechanical properties 220 — 222 Magnetoresistance 417 —-4 20 Superconductors Pool boiling Platinum resistance thermometers Critical currents 174-177 Heat transfer 16-20 Viscosity Ceramics 979 — 984 Thermometry Liquid air 1070-1072 Superconductors Platinum NMR 94-98 Mechanical properties Stability 533 — 537 Magnetic materials Carbon fibres Quench High T,. superconductors Epoxy resins 265 — 268 Superconducting magnets Magnetic separation 728 — 731 Composites Friction 969 —-974 Thermal conductivity Epoxy resins 399-404, 715-719 Superconductors Regenerators 405 —-4 10 Epoxy resins A.c. losses 598 — 600 Magnetic properties Thermal properties 269 — 272 Numerical modelling 645 — 650 Mathematical models Fibre-reinforced plastics Refrigeration Calibration 763 — 770 Insulation 312-218 Heat transfer Magnetization Magnetization Pulse-tube refrigerators 786 — 790 Mechanical properties Superconducting cables 51-53 Refrigerators Superconducting cables 51-53 Polymers Cryogenerators Refrigerators Fracture behaviour 878 — 883 Gifford - McMahon cycle 791 — 795 Thermodynamics 99 — 101 Steel Magnetization Magnetization behaviour Metallurgical characterization Thermodynamics 99-101 Critical currents 780-785 Mathematical models Flux pinning 178 — 182 Superconductors Cryostats 147-152 Superconductors Superconducting magnets Space cryogenics Transition temperature 732 — 737 292-297 Helium 338 — 340 Magnetocaloric effect Model Thermodynamics Instrumentation Physical properties Helium 1038 — 1043 High T. superconductivity 425 — 430 Magnetic fields 128-131 Regenerators Magnetic field Superconductors Cryocoolers Magnetic entropy charge 166 — 167 Flux pump 459 — 460 Stirling cycle 1044-1052 Magnetometers Thermal properties Heat exchangers High T. superconductors Corrugated surfaces 1008 —- 1019 Sinusoidal flow 839 — 841 Critical currents 119 — 127 Multifilamentary wires Noble gases SQUIDs Superconducting magnets Helium 854 — 861 High T. superconductivity 369 — 372 Proximity effects 183-191 Thermal conductivity Magnetoresistance Superconductivity Magnetic materials 405-410 Chip resistors Flux pinning 431 — 438 Thermodynamics Thermometry 932 —935 Nb — Ti Optimization 862 — 868 Thermometry Superconducting magnets Rhodium — iron Thermoresistors 874 —-8 77 Superconductor stability 341 — 347 Thermometry Magnets Nitrogen Resistance thermometer 869 — 873 Current leads Heat transfer SQUIDs Solenoids 806 —-8 10 Hydrogen 64-69 High T. superconductivity Superconductors Noble gases Low temperature electronics 988 - 992 Magnetic stability 580 - 584 Regenerators Seals Materials characterization Helium 854 — 861 Helium Composites Normal zone propagation Leaks 993-995 Polymers 7-15 High T. superconductors Sinusoidal flow High T, superconductors Thermal stability 962 —- 968 Heat exchangers Thermal cycling 209 — 211 Optical fibres Regenerators 839 — 841 Magnetic fields LEDs Solders Thin films 41 —47 Thermal conductivity 921 —923 Materials characterization Solders Physical properties Indium 159-162 Indium 159 — 162 Composites Solubility Thermal conductivity Design applications 288 — 291 Liquid nitrogen Physical properties 3-6 Cryomedicine Halogenhydrocarbons 896 — 899 Mathematical models Cryogens 136 — 137 Space cryogenics Cryostats Magnetic fields Grating drive mechanism Refrigerators 147 — 152 Model 128-131 Infrared spectograph 1030 — 1037 1078 Cryogenics 1991 Vol 31 December Refrigerators Stability 547 —- 550 Epoxy resins Helium 338 — 340 Superfluid helium 624 —-628 Composites 241 — 243 Steel High T, superconductivity Low temperature studies 228 — 230 Mechanical properties Critical currents 687 — 689 Materials characterization Metallurgical characterization 780 — 785 Flux stability 936 —-948 Physical properties 3-6 Stirling cycle S—N transition 690 —- 692 Optical fibres Regenerators Starting compounds 33 —- 40 LEDs 921-923 Cryocoolers 1044 —- 1052 Hysteresis Regenerators Superconducting cables Hollow filaments 356 — 362 Magnetic materials 405 —- 410 A.c. losses Magnetic stability Superconductivity Stability 594 — 597 A.c. losses 612-617, 651-654 Phase diagram 388 — 389 High T, superconductivity Forced flow cooling 551 — 556 Thermal properties Turbogenerators 450 — 455 Generators 660 —- 663, 664 - 667 Corrugated surfaces Mechanical properties Large Helical Device 634 — 639 Model 1008 — 1019 Magnetization 51-53 Magnetization behaviour Epoxy resins Nb3Sn Transition temperature 732 — 737 Mechanical properties 269 — 272 Stress effects 390-391 Magnets Heat capacity Superconducting magnets Magnetic stability 580 — 584 Glass-ceramic 102-104 Current leads Measuring methods Polymers Force-cooling 985 — 987 Efficiency 204 —- 208 Mechanical properties 220 — 222 Multifilamentary wires Measuring techniques Thermal stability Proximity effects 183-191 Critical currents 174-177 High 7, superconductors Quench Mechanical properties Normal zone propagation 962 — 968 Friction 969-974 Superconducting magnets 292 — 297 Superconductors Superconductor stability Model Thin films 749-755 Nb — Ti 341 — 347 Flux pump 459 — 460 Thermoacoustics Superconductors Oxide superconductors Helium Magnet stability 570-574 YAG lasers 900 —- 905 Pressure vessels 892 — 895 Magnetic stability 575-579 Physical properties Thermodynamics Mechanical properties 292 — 297 Superconductor stability 21 — 32 Refrigerators Quench protection 557 — 561, Pool boiling Helium 1038 — 1043 562-565, 566-569 Stability 533 — 537 Magnetization 99 —- 101 Stability 504 —- 509 Quench Regenerators Composites A.c. losses 598 — 600 Optimization 862 — 868 Normal zone propagation 817 — 835 Numerical modelling 645 — 650 Thermometers Superconducting oxides Stability Magnetic fields Thin films Copper to superconductor ratio Magnetoresistance 417 —- 420 Cryoeiectrophoresis 756 — 759 528 — 532 Platinum resistance thermometers Superconductivity Current density 499 — 503 16-20 Ceramic oxides Design criteria 510-515 Thermometry Critical current density 949 —- 953 Generators 668 — 673 Calorimetry Composites Magnetic shield 524 —-527 Measuring techniques 54 — 57 Epoxy resin 906-912 Quench energy 521-523, 543 Chip resistors Critical currents Review 489 —- 498 Magnetoresistance 932 —- 935 Zinc 348 — 353 SMES 538 — 542 Heat capacity Josephson junctions Superfluid helium 516 —520 Resistors 796 — 800 Critical currents 132-135 Superconducting magnets Helium Multifilamentary wires Magnet stability 570-574 Temperature regulation 801 — 805 Flux pinning 431 — 438 Magnetic stability 575-579 Magnetic fields Thermal conductivity Quench protection 557 — 561, Platinum NMR 94-98 Phase diagram 388 — 389 562-565, 566-569 Magnetoresistance Superconductor stability Stability 504-509 Thermoresistors 874 — 877 Composites Superconducting switches Rhodium — iron Copper 738-748 Magnetic stability 590-593 Resistance thermometers 869 — 873 Cooling Thermal stability Thin films Stability analysis 110-118 Thin films 749-755 Critical currents Superconducting magnets Tokamak High T, superconductivity 366 — 368 Nb —Ti 341 —347 Fusion 640 —- 644 High T, superconductivity Superconductors YBCO BiPbSrCaCuO 439 —- 449 A.c. losses Thin films 975-978 Magnetic fields Hysteresis 601 — 606 Superconducting magnets Materials characterization 41 — 47 Quench current 607 —- 617 Magnetic stability 585 — 589 Superconducting oxides Calorimetry Tore Supra Cryoelectrophoresis 756 — 759 A.c. losses 363 —- 365 Magnetic stability 629 —-633 Superconductors Composites Superfluidity Thermal stability 749 — 755 High T. superconductivity 674 —- 675 Helium YBCO 975-978 Nb3Sn 826 — 832 Flanges 456 —- 458 Tunneling Stability 192-203 Heat transfer 927 — 931 Cryostats Critical currents Temperature measurement Spectroscopy 421-424 Flux pinning 833 — 838 Helium 87 —93 YBCO Critical energies Temperature measurement Superconductors Superconductor stability 444 —- 449 Superfluidity Thin films 975-979 Heat transfer Helium 87-93 Zinc High T, superconductivity 680 — 686 Thermal conductivity Superconductivity Laser ablation 676 —-679 Composites Critical currents 348 — 353 Magnetic stability 618 —- 623 Fibres 238 — 240 Cryogenics 1991 Vol 31 December Index Authors Dotsenko, V.|I. 906-912 Inukai, M. 664 —- 667 Downey, C.H. 48-50, 1030-1037 isaykin, V.N. 459 - 460 Abdelmohsen, H.H. 399-404, 715 719 Dresner, L 489-498, 557-561 Ishida, H. 640 —- 644 Agatsuma, K 551 556 Duband, L. 338 — 340 Ishigohka, T. 562-565 Ahiborn, K 252-256, 257 260 Dubé, W.P. 3-6 Ishii, |. 664 —- 667, 668-673 Akhmetov, A 674 675 Dummer, D. 388 - 389 Ishimaru, H. 45-6 45 8 Akita, S 598 —-6 00, 601 606 Isono, T. 640 - 644 Alexeyev, A.| 330 — 337, 1020 1029 Edwards, C.M. 138-139 Ito, T. 533 — 537 Alford, N.McN 119 127 Eggenhoffner, R. 756-759 Itoh, K. 900 —- 905 Alsop, D 338 340 Eggers, H. 265 — 268 Itoh, W. 453-455 Altov, V 674 675 Egusa, S. 7-15 Ilwabuchi, A. 969-974 Amano, T 110 118 Eikelboom, J.A 356 — 362, 363-365 Iwakuma, M. 594-597 Amemiya, N 528 — 532, 585 589, Elkonin, B.V 1053 — 1054 Iwasa, Y. 174-177, 261 — 264, 607 617 Evans, D. 220-222, 292-297 341 —-347, 575-579, 695-704, Ametistov, E.V 1038 1043 817-835 Anderson, P 388 389 Fagaly, R.L 988 - 992 Iwasaki, Y. 273-276, 288-291 Ando, T 640 644 Fevrier, A 51-53 Ando, Y 601 606 Filatova, O 674-675 Jackel, M. 269 — 272, 228-230 Andres, K 54-57 Filippov, Yu.P 330 —337, 1020-1029 Jadhav, K.M. 83—3 83 8 Aoki, N 570 574 Forostenko, A.A. 459 —-4 60 Jakob, B. 390 — 391 Aragon, A.S 1070 1072 Fozooni, P 890 - 891 JanSak, L. 59—0 59 3 Arai, K 664 —-6 67, 668 673 Freeman, P.A 732-737 Jie, Qin 58—0 58 4 Arndt, K.F 228 230 Freidberg, J.P 21-32 Johnson, J.D. 732-737 Asner, A 390 391 Frohlich, K. 590-593 Jones, H. 105-109 Atrey, M.D 1044 1052 Frost, J. 890 - 891 Jutzi, W 975-978 Funaki, K 431 438, 594-597 Babitch, V.I 645 650 Futaki, N. 676-679 Kadel, K. 36—6 36 8 Baldini, A 795 Kafkalidis, J.F. 705-711 Bandos, T.V 968 Gallinaro, G. 58-60 Kagami, H. 58—5-5 8 9 Bansemir, H 306 Gatti, F 58-60 Kaiho, K. 66—4-6 6 7, 668-673 Bapat, S.L 1052 Ge, Shuangyan 136 — 137 Kamafuji, K. 183-191 Barlet, A Geng, Q 786 — 790 Kamitani, A. 110-118 Bartenev, V.D Genna, J.C. 801 — 805 Kamiyauchi, Y. 640 - 644 Bassan, M Glebov 450-455 Kanemoto, G. 277-281 Belyaeva, A.| Goodrich, L.F. 720-727 Karman, T. 33-40 Benke, A Gorbachev, S.P 204 — 208, 892-895 Karunanithi, R. 1065 — 1069 Bernstein, G Goto, E 786 — 790 Kasahara, H. 59—8-6 0 0 Bichile, G.K Gough, C.E 119-127 Kasuya, M. 786 — 790 Blair, D.G Gupta, A.K 209-211 Katagiri, K. 524-527 Blunt, F.J Gutsmiedl, P 54-57 Katheder, H. 327-329 Bobo, J.C Kato, H. 16-20, 417-420, 425-430 Bona, M Haarer, D 223 — 227 Kato, T. 640 —- 644, 687 - 689 Bottura, L Haider, O 298 — 306 Kawagoe, E. 640 —- 644 Brennan, M.A Halasz, | 33-40 Kawano, K. 640 - 644 Briggs, A Hara, N. 183-191, 431 -438, 566 - 569 Kececioglu, |. 1008 — 1019 Brown IV, J.N Harrison, J.P. 369 — 372 Khare, N. 209-211 Brunet, Y Hartung, W. 265 — 268 Khoder, A.F. 763-770 Button, T.W Hartwig, G 231 — 233, 234-237, Kim, J.-K. 547-550 244 — 247 Kirichenko, A.Ya. 384 — 387 Churbanov, V.V Hartwig, K.T 153-158 Kirichenko, S.M. 979-984 Callaghan, M.T Haruyama, T 1055 — 1064 Kirschman, R.K 1055 — 1064 Campbell, A.M Hashimoto, T 405-410 Kirschner, |. 33-40 Candela, D Hashizume, H. 601 — 606 Kiselev, Yu.F. 874-877 Caplin, A.D Hayashi, K 954 - 961 Kisylak, |.F. 906 —-912 Cardwell, D.A Hayata, S. 338 — 340 Klemens, P.G. 238 — 240 Changlian, Yi Heidinger, M 366 — 368 Klimova, E.B. 459 - 460 Chen, Rong-Chang Herwig, R 975-978 Knaak,S. 231 — 233, 265-268 Chernikov, A.N Higuchi, H 668 - 673 Knight, G.W. 292 —297 Cherpak, N.T ‘Higuchi, N 664 — 667 Kobayashi, H. 927-931 Chilson, P.B Hikata, T 687-689, 949-953 Koblischka, M.R. 811-816 Chu, Hsin-Sen Hirabayashi, H. 806 —-8 10 Kohli, M. 369 — 372 Chubraeva, L.| Hirokawa, T 261 264, 273-276, Kohno, O. 676-679 Chyu, M 288 - 291 Koizumi, K. 640 - 644 Clark, J.C Hiyama, T 640 —- 644 Kokavec, J 590 —- 593 Coccia, E Hiasnik, | 590 - 593 Komuro, K. 969-974 Cockburn, J.W Holmes, D.S 75-86 Konno, M. 640 —- 644 Colclough, M.S Hong, C.S 87-93 Konzyuba, O.B. 459 - 460 Collocott, S.J Honjo, S 504 — 509 Kovacs, Gy. 33-40 Couach, M Horii, K 69-0 69 2 Kozlov, K.V. 979-984 Cowey, L Houck, J.R 1030 — 1037 Kozorezov, V.G. 459 - 460 Hua, C.Y 153-158 Krahn, F. 244 —- 247 Dabrowska, B Huang, X 75-86 Krikunov, A.A. 204 — 208 Dall’Oglio, G Huang, Zhongping 136 — 137 Kronmiller, H. 811-816 Daney, D.E 839 — 841, Humer, K 878-883 Kuberkar, D.G. 833 — 838 Das, S.K Kubitschek, M.J 1030 — 1037 Devlin, J ihas, G.G 921-923 Kubota, H. 533 — 537 Dietzfelbinger, S.H lijima, Y 676-679 Kubota, Y. 601 — 606 Diller, D.E Ikeno, Y 676-679 Kulagin, V.A. 459 - 460 Doi, K Imura, T 668 —-6 73 Kulkarni, R.G. 833 —-8 38 Donat, B Inada, Y 453-455 Kumagai, M. 668 —-6 73 1080 Cryogenics 1991 Vol 31 December Index Kupchikhin, P.M. 1038-1043 Nikitin, S.A. 166-167 Schomburg, W.K. 366 — 368 Kurisho, Y. 562-565 Nishi, M. 640-644 Schuster, Th. 811-816 Kuroda, K. 547-500, 566-569 Nishijima, S. 261-264, 273-276, Schwartz, J. 21-32 Kuroda, T. 900 —- 905 288 — 291, 307-311, 524-527 Schwarz, G. 244 -— 247 Kuwahara, H. 392-393 Noguchi, H. 392-393 Sekiya, S. 110-118 Kuzmina, A.G. 892-895 Noma, K. 261-264, 288-291 Seo, K. 524-527 Nomura, H. 664-667, 668-673 Serebryakov, B.A. 459 —- 460 Labov, S. 99-101 N6other, G. 366-368 Shah, S.S. 833 — 838 Laesecke, A. 1070-1072 Nyilas, A. 884-889 Shibuta, N. 687 —689 Lahderanta, E. 33-40 Shimamoto, S. 640 - 644 Laiho, R. 33-40 O'Connor, D.A. 119-127 Shimizu, H. 607 -617 Landis, D. 99-101 Oberly, C.E. 680-686 Shimizu, N. 690 - 692 Lange, A. 338-340 Obst, B. 884-889 Shimotami, M. 379-383 Laverty, J. 33-40 Obukhov, S.A. 874-877 Shinozaki, A. 453-455 Lawless, W.N. 41-47 Ochiai, S. 826-832, 954-961 Shiobara, R. 660 —- 663 Lea, M.J. 890-891 Ogasawara, T. 601-606 Shishov, Y.A. 98-5 98 7 Leppavuori, S. 33-40 Ogata, H. 392-393 Shivashankar, G.V. 1065 — 1069 Leriche, A. 51-53 Ogawa, M. 405-410 Shusen, C. 918-922 Lethuillier, P. 801-805 Ohara, A. 110-118 Sidyganov, V.U. 1038 — 1043 Li, L. 439-449 Ohmatsu, K. 651-654 Siewert, T.A. Li, R. 405-410 Oishi, Y. 607-617 Silver, E. Li, Shimo 136-137 Ojha, V.N. 209-211 Siqueira, M.L. Liang, Zhang 87-93 Okada, S. 547-550 Slifka, A.J. Licea Claverie, A. 228-230 Okada, T. 261 — 264, 273-276, Snook, P. Lin, Peng 87-93 28—8 29 1, 307-311, 524-527 Sokolowski, J.S. Lin, T.-Y. 411-416 Okaji, M. 16-20, 417-420, 425-430 Song, Naihao Lubescher, B. 811-816 Okuno, K. 640-644 Sparks, L.L. Luguang, Yan 580-584 Onabe, K. 676-679 Srikanth, H. Onishi, T. 664-667, 668-673 Stephens, R.B. Maccioni, P. 192-203, 738-748 Osamura, K. 826-832, 954-961 Sugimoto, M. Madden, N. 99-101 Oshida, K. 640-644 Sugita, T. Maeda, H. 570-574 Otabe, E.S. 949-953 Sugiura, T. Maehata, K. 806 - 810 Sullivan, N.S. 138-139 Maki, N. 660-663 Pakhomov, V.Ya. 459-460 Sun, Yue 760 — 762 Malinowski, L. 444-449 Pan, Huaiyu 136-137 Sisser, M. 327-329 Mamedov, |.S. 330-337, 1020-1029 Pannkoke, K. 248-251 Sysoev, N.A. 459 - 460 Mao, Yuzhu 87-93 Pasztor, G. 390-391 Sytchev, V. 674-675 Marienhoff, P. 975-978 Pepik, N.I. 874-877 Szics, Z. 1065 — 1069 Markov, A.A. 459-460 Peterson, R.L. 132-135 Martinis, L. 61-63 Pfotenhauer, J. 538-542 Tateishi, H. 645 —- 650 Masuda, T. 687-689 Piccirillo, L. 61-63 Tada, E. 640 - 644 Mathu, F. 168-173 Pizzo, L. 61-63 Tada, N. 660 - 663 Matsumoto, K. 431-438 Plétner, M. 159-162 Takahashi, K. 651-654 Matsumoto, T. 338-340 Popkov, A.N. 874-877 Takahashi, Y. 640 — 644 Matsunobo, Y. 660-663 Porjesz, T. 33-40 Takahata, K. 307-311, 634-639 Matsushita, T. 431-438, 949-953 Postma, H. 168-173 Takao, T. 504-509, 607-617 Mawatari, Y. 183-191, 431-438 Probst, Chr. 54-57 Takeo, M. 594-597 McAllaster, D.R. 94-98 Tamura, O. 869 —- 873 McCowan, C.N. 775-779 Rabinowicz, E. 695-704 Tanak, Y. 183-191, 431-438, McDonald, L.C. 153-158 Rammig, R. 64-69 543-546, 607-617 McManamy, T.J. 277-281 Rangarajan, G. 913-917 Tarde, R.W. 1030 — 1037 Meijer, H.C. 168-173 Rapp, R.E. 796-800 Tateishi, H. 664 - 667, 668-673 Menci, N. 147-152 Raychaudhuri, A.K421-—424,1065—1069 Terreni, S. 58-60 Meuris, C. 624-628 Reddy, G.S.N. 209-211 Tidecks, R. 348 — 353 Micheel, P.C. 695-704 Reiner, J. 366-368 Tishin, A.M. 166 — 167 Millet, |. 99-101 Reul, S. 223-227 Tixador, P. 51-53 Minervini, J.V. 510-515 Richards, M.G. 128-131 Tomar, V.S. 209-211 Mitchell, N. 510-515 Richards, P. 99-101 Tominaka, T. 566 —- 569 Mito, T. 634-639 Richter, W. 223-227 Torii, S. 598 — 600, 601 — 606 Miura, O. 431-438 Romanov, A.N. 459-460 Tough, J.T. 705-711 Miya, K. 601-606 Romanov, S.V. 1020-1029 Tschegg, E. 312-318, 878-883 Modena, |. 147-152, 712-714 Rusanov, E.G. 979-984 Tsuji, H. 640 - 644 Morgan, J.T. 220-222 Tsukamoto, O. 504-509, 528 — 532, Moser, N. 811-816 Schmidt, C. 645 — 650 585-589, 607 -617 Motojima, O. 634-639 Saatkamp, T. 234-237 Tsuruga, H. 927-931 Muira, D. 183-191 Sadakata, N. 676-679 Turck, B. 192-203, 629-633, Mukai, H. 687-689 Sahoo, R.K. 862 - 868 738-748 Miller, M. 228-230 Sakuri, H. 869-873 Turner, P.J. 918-922 Salerno, L.J. 993-995 Tyurina, E.G. 979-984 Nagata, M. 651-654 Sano, T. 543 - 546 Nakajima, H. 640-644 Sato, K. 687 —689, 949-953 Uchiyama, G. 570-574 Nakamura, N. 379-383 Sato, S. 338 — 340, 607-611 Ueyama, M. 687 —- 689 Nakamura, S. 521-523 Sato, K. 664-667 Urata, M. 570-574 Nakashima, M. 594-597 Satoh, K. 664-667 Ustjushanin, E.E. 241-243 Nakatsu, M. 786-790 Sawada, A. 453-455 Uusimaki, A. 33-40 Nara, K. 16-20, 417-420, 425-430 Schauer, W. 366 — 368 Narayankhedkar, K.G. 1044-1052 Scheibner, W. 269-272 Vaidhyanathan, L.S. 913-917 Neganov, B.S. 874-877 Scherer, T. 975-978 van de Klundert,L. 356-362, 612-617 Neuhaus, M. 975-978 Schlegeimiich, R. 163-165 Van Sciver, S.W. 75-86, 516-520 Ni, B. 949-953 Schmidt, C. 618-623 Vasil’ev, V.V. 459 - 460 Cryogenics 1991 Vol 31 December 1081 Index Vedrine, P Wilson, N. 499 —- 503 Yokoyama, S. 521-523 Vekshina, V.S Windte, V 366 — 368 Yoneyama, Y. 607 -611 Viana, R.J. 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Miropolsky Book reviews by J.W. Lynn and R.1. Soziev H.W. Weber 767 — 768 A. Hofmann 996 veparation of Gases: Monographs on Advances in Cryogenics: Proceedings of the Cryogenics (in collaboration with the International conferences on Cryogenics, British Cryogenics Council) by W.H INCONCRYO-88, edited by A. Bose and P. Isalski Sengupta J.B. Gardner 70 R. Srinivasan 768 1082 Cryogenics 1991 Vol 31 December

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