17 Quantum fluids superconductivity
(This is from the original 1993 list with updates pending.)
Alvarez, M., L. Sbriz, and M. Cordero (1989), "A low-cost LN2 monitor," AJP 57, 954-5.
-books on quantum fluids & superconductivity
Andronikashvili, E. L. (1989), Reflections on Liquid Helium (American Institute of Physics), ISBN 0-88318-575-X, Call no. QC16 A623 A3 1989 .
Bennemann, K. H. and J. B. Ketterson (1976), The Physics of Liquid and Solid Helium, Part 1 (Wiley), ISBN 0-471-06600-1, Call no. QC 145.45 H4 P49.
Bennemann, K. H. and J. B. Ketterson (1978), The Physics of Liquid and Solid Helium, Part 2 (Wiley), ISBN 0-471-06601-x, Call no. QC 145.45 H4 P48.
Betts, D. S., Refrigeration and Thermometry below One Kelvin (Sussex Univ. Press; Crane Russac), ISBN 0-8448-0853-9.
Betts, D. S. (1989), An introduction to millikelvin technology (Cambridge), ISBN 0-521-34456-5, Call no. QC 278 B46 1989.
Croft, A. J. (1970), Cryogenic Laboratory Equipment (Plenum), ISBN 0-306-30253-5.
Donnelly, R. J. (1967), Experimental Superfluidity (Univ. of Chicago Press), ISBN (pb).
Doss, J. D. (1989), Engineer's guide to high temperature superconductivity (Wiley), ISBN 0-471-51307-5, Call no. QC 611.98 H54 D67 1989.
Hinken, J. H. (1988), Superconductor electronics: fundamentals and microwave applications (Springer-Verlag), ISBN 0-387-51114-8, Call no. TK 7872 S8 H5613 1989.
Lounasmaa, O. V. (1974), Experimental Principles and Methods Below 1K (Academic), ISBN 0-12-455950-6.
McClintock, P. V. E. and D. J. Meredith, and Wigmore, J. K. (1984), Matter at Low Temperatures (Wiley), ISBN 0-471-81315-X.
Mendelssohn, K. (1960), Cryophysics (interscience).
Mendelssohn, K. (1977), The quest for absolute zero: the meaning of low temperature physics, 2nd ed. (Taylor & Francis), ISBN 0-470-99148-8, Call no. QC 278 M43 1977.
Orlando, T. P. and K. A. Delin (1990), Foundations of Applied Superconductivity (Addison-Wesley), ISBN 0-201-18323-4, Call no. QC 611.92 O75 1990.
Richardson, R. C. and E. N. Smith (1988), Experimental Techniques in Condensed Matter Physics at Low Temperatures (Addison-Wesley), ISBN 0-201-15002-6, Call no. QC 173.4 C65 E97 1988.
Rose-Innes, A. C., Low tmeperature techniques: the use of liquid helium in the laboratory (Van Nostrand).
Trefny, J. U., E. S. Porter, and C. R. Porter (1988), Oxitec superconductivity manual for advanced students Superconductivity. Superconductors. Physics Study and teaching. Physics Experiments. Physics Laboratory manuals. Porter, Elizabeth Streeter. Porter, Clifford R. Superconductive Technologies, Inc. Oxitec. more follows -- press <RETURN> (Q to quit) Author: Trefny John U Title: Oxitec superconductivity manual for advanced stu (Golden, Colo.: Superconductive Technologies, Inc.), Call no. QC612.S8 T73 1988.
White, G. K. (1979), Experimental Techniques in Low Temperature Physics, 3rd ed. (Oxford Univ. Press), ISBN 0-19-851359-3.
Wilks, J. (1970), An Introduction to Liquid Helium (Oxford Univ. Press), ISBN (pb).
-miscellaneous papers on quantum fluids & superconductivity
Martin, F. E. and P. H. Sidles (1973), "Low-cost cryostat for laboratory instruction in physics," AJP 41, 103-110.
McCoy, D. G. (1978), "SImple liquid-nitrogen level probe," AJP 46, 192.
Salinger, G. L. and A. Leitner (1966), "Demonstrations and expriments at liquid-helium temperatures," AJP 34, 692-700.
Forrest, A. M. (1984), "Low temperature projects - Paisley pattern," PE 19, 73-77.
-supefluid helium
Hallock, R. B. (1982), "Resource letter SH-1: superfluid helium," AJP 50, 202-212.
Martinez, E. N., P. Esquinazi, and J. Luzuriaga (1990), "Measurements of the superfluid transition in helium by means of a vibrating reed," AJP 58, 1163-8.
Werntz, J. H. and Committee on Apparatus of the AAPT, Eds. (1965), "Apparatus notes: apparatus for the measurment of the velocity of second sound in liquid helium II," AJP 33, No. 1 - xxv.
Finkelstein, Y. and E. Polturak (1993), "Student laboratory experiments on surface waves on water and on the normal density of superfluid helium using a tunnel diode oscillator," EJP 14, 23-28.
-superconductors: general
Behroozi, F. (1983), "Magnetic behavior of superconductors: an experiment for the advanced laboratory," AJP 51, 28-32.
Behroozi, F. and K. R. King (1976), "Superconductivity in the advanced laboratory," AJP 44, 1187-1191.
Byer, R. L., R. F. Begley, and G. R. Stewart (1974), "Superconducting, magnetically levitated merry-go-round," AJP 42, 111-125.
Collings, P. J. and J. E. Gordon (1969), "An undergraduate experiment demonstrating flux quantization and superconductivity," AJP 37, 293-295.
Crooks, M. J. (1971), "Floating magnets and the Meissner effect," AJP 39, 113-114.
Dalven, R. (1984), "Physics of the critical magnetic field in type-II superconductors," AJP 52, 1043-1049.
Ginsberg, D. M. (1970), "Resource letter Scy-2 on superconductivity," AJP 38, 949-955.
Merrill, J. R. and R. W. Christy (1969), "Superconductive tunneling in the advanced laboratory," AJP 37, 61-64.
Ouseph, P. J. (1989), "Meissner oscillator," AJP 57, 955-956.
Richards, P. L., S. Shapiro, and C. C. Grimes (1968), "Student laboratory demonstration of flux qunatization and the Josephson effect in superconductors," AJP 36, 690-697.
Rowland, J. J. (1975), "A simple direct demonstration of persistent current in a superconducting circuit," AJP 43, 1105-1106.
Saslow, W. M. (1991), "How a superconductor supports a magnet, how magnetically "soft" iron attracts a magnet, and eddy currents for the uninitiated," AJP 59, 16-25.
Smith, A. D. and M. Tinkham (1980), "Superconductivity demonstration," AJP 48, 940-941.
Vandervorst, S., F. Hermans, and M. H. Lambert (1972), "A simple demonstration of flux quantization in superconductors," AJP 40, 897-898.
Vaughan, M., A. Ragona, M. Marcuso, and W. C. H. Joiner (1971), "Experiment for studying the magnetization of superconductors," AJP 39, 293-296.
Walsh, P. J. and V. P. Tomaselli (1990), "Theory of microwave surface impedance in superconductors and normal metals," AJP 58, 644-650.
Borcherds, P. H., D. Glasspoole, C. E. Gough, and G. P. McCauley (1988), "Fractional quantum states in superconductors: an electronic simulation," EJP 9, 303-307.
Ewert, S. (1987), "A demonstration experiment on the phase transition of a superconductor in a magnetic field," EJP 8, 161-163.
Pebworth, L. (1988), "Project superconductor," PE 23, 372-373.
Tao, L., Y. Zheng, and L. Yi (1992), "A demonstration of superconducting critical properties," PE 27, 280-281.
-high Tc superconductors
Birgeneau, R. J. (1990), "The Richtmeyer Memorial Lecture (January 1988): novel magnetic phenomena and high-temperature superconductivity in lamellar copper oxides," AJP 58, 28-40.
Brandt, E. H. (1990), "Rigid levitation and suspension of high-temperature superconductors by magnets," AJP 58, 43-49.
Brown, G. C., J. O. Rasure, and W. A. Morrison (1989), "Simple demonstration of superconductivity in YBa2Cu3O7," AJP 57, 1142-1144.
Early, E. A., C. L. Seaman, K. N. Yang, and M. B. Maple (1988), "Demonstrating superconductivity at liquid nitrogen temperatures," AJP 56, 617-620.
Fox, J. N., F. A. Rustad, and R. W. Smith (1988), "Measurement of the transition temperature of a high Tc superconductor," AJP 56, 980-982.
Gabrys, C., J. R. Hull, and T. M. Mulcahy (1992), "A high-speed demonstration motor with superconducting bearings," AJP 60, 1153-1154.
Liu, F., R. R. Tucker, and P. Heller (1990), "Nitrogen temperature superconducting ring experiment," AJP 58, 211-8.
Pechan, M. J. and J. A. Horvath (1990), "Quasiequilibrium determination of high-Tc superconductor transition temperatures," AJP 58, 642-4.
Reich, S. (1988), "Zero permeability of a high Tc superconductor demonstrated with a piece of cork and some salty water," AJP 56, 1039-1040.
Kirkup, L. (1988), "Resistance measurements as a function of temeperature on the high-Tc superconductor YBa2Cu3O7-∂," EJP 9, 1-4.
Oseguera, J., R. Perez, and J. Cruz (1989), "Demonstration of possible applications of the Meissner effect using the new high-Tc superconductors," EJP 10, 19-21.
Campbell, K. M. and C. henderson (1988), "High temperature superconductors - a student project," PE 23, 373-374.
Wurlitzer, M. and H. Boerner (1992), "An experiment with superconducting ceramics," PE 27, 45.
-superconducting devices: Josephson junctions, etc.
Clarke, J. (1970), "The Josephson effect and e/h," AJP 38, 1071-1095.
DiRienzo, A. L. and R. A. Young (1983), "A coupled angular momentum model for the Josephson junction," AJP 51, 587-597.
Goodkind, J. M. (1971), "Applications of superconductivity," AJP 39, 9-23.
Henry, R. W. and D. E. Prober (1981), "Sampling-type electronic analog of a Josephson junction," AJP 49, 701.
Henry, R. W., D. E. Prober, and A. Davidson (1981), "Simple electronic analog of the Josephson junction," AJP 49, 1035-1046.
Kerr, D. and D. A. Zych (1975), "Measuring the dc and ac Josephson effects with a simple point contact junction," AJP 43, 921-923.
Manikopoulis, C. N. and E. C. Hannah (1973), "Student laboratory demonstration of the Josephson effects with Clarke slugs," AJP 41, 888-894.
Ouseph, P. J. (1989), "Meissner oscillator," AJP 57, 955-956.
Richards, P. L., S. Shapiro, and C. C. Grimes (1968), "Student laboratory demonstration of flux qunatization and the Josephson effect in superconductors," AJP 36, 690-697.
Rochlin, G. I. and P. K. Hansma (1973), "Inexpensive mechanical model of a Josephson weak link," AJP 41, 878-887.
Stroink, G., C. Purcell, and B. Blackford (1978), "Josephson effect in an undergraduate laboraotry," AJP 46, 424-425.
Sullivan, D. B. and J. E. Zimmerman (1971), "Mechanical analogs of time dependent Josephson phenomena," AJP 39, 1504-1517.
Walker, I. R. (1985), "Simple demonstration of the Josephson effect," AJP 53, 445-449.
Allen, B. P. and J. E. Whitehouse (1982), "A josephson effect apparatus for the undergraduate laboratory," EJP 3, 1136-138