Finding Aid for John Bardeen Papers, 1910-2018 | University of Illinois Archives

By K. Corcella

Service Location	Boxes	Request
146 Library, 1408 W. Gregory Drive	001-031	Request 001-031
146 Library, 1408 W. Gregory Drive	032-068	Request 032-068
146 Library, 1408 W. Gregory Drive	069-104	Request 069-104
146 Library, 1408 W. Gregory Drive	105-131	Request 105-131
146 Library, 1408 W. Gregory Drive	132	Request 132
146 Library, 1408 W. Gregory Drive	133-142	Request 133-142
146 Library, 1408 W. Gregory Drive	143-150	Request 143-150
146 Library, 1408 W. Gregory Drive	151-183	Request 151-183
146 Library, 1408 W. Gregory Drive	184	Request 184
146 Library, 1408 W. Gregory Drive	185-192	Request 185-192
Archives Research Center, 1707 S. Orchard Street	Artifact	Request Artifact
Digital files: May require 24 hours notice for retrieval	e-records	Request e-records

Submit request (Aeon) | email

Email us about these papers | printer

Print this information

Collection Overview

Title: John Bardeen Papers, 1910-2018

ID: 11/10/20

Primary Creator: Bardeen, John (1908-1991)

Extent: 59.4 cubic feet

Arrangement: by type of material and chronologically thereunder

Subjects: Bardeen, John, Bell Laboratories, Electrical Engineering, Faculty Papers, Harvard University, John Bardeen, Many Body Theory, Naval Ordnance Laboratory, Nobel Prizes, Princeton University, Science and Technology, Solid State Physics, Superconductivity, Theoretical Physics, Transistors, Union of Soviet Socialist Republics - Science and Technology, University of Illinois Center for Advanced Study, University of Wisconsin-Madison, Xerography

Formats/Genres: Papers

Languages: Chinese, German, Russian, Czech

Scope and Contents of the Materials

Papers of John Bardeen (1908-91), Professor of Electrical Engineering and Physics (1951-91), include publications (1930-91), dissertations and theses by Bardeen students (1952-85), correspondence (1945-70, 1972-91) and reports, certificates and diplomas for honorary degrees and honors, preprints, reprints, drafts, speeches, notes, photographs, slides, tape recorded interviews, & motion pictures (1910-91) concerning theoretical physics, solid state physics, development of the transistor, xerography, development of the theory of superconductivity with J. R. Schrieffer & Leon Cooper, Bardeen's 1956 and 1972 Nobel prizes and lectures, the applications of transistors & superconductivity, many body theory, Russian & Chinese physics research, American Physical Society, Army Research Office, Bell Laboratories & the transistor (1936-68), Center for Advanced Study, International Union of Pure and Applied Physics, Naval Ordnance Laboratory, Navy Research Office, Sony Corporation, Supertex, Inc., White House Science Council (1979-83), Xerox Corporation, electrolytic transistor invention patents (1910-60), consulting work, and the Physics Department. Correspondents include Walter H. Brattain, P. W. Bridgman, Leon Cooper, Harry G. Drickamer, H. Frohlich, Nick Holonyak, Jr. (BS '50, MS '51, PhD '54), Charles Kittel, J. R. Schrieffer (MS '54, PhD '57), Karlheinz Seeger, Frederick Seitz, William B. Shockley, & J. H. Van Vleck. Tape recorded interviews contain comments on theoretical physicists, experimental physics, theory of superconductivity, many body theory, scientific publication, education, Dr. Charles Bardeen, solid state physics, considerations in coming to Illinois, recruitment of new faculty, scientific understanding & communication between & education of non-scientists & scientists. Motion pictures include a May, 1972 interview with Bardeen, and a December, 1972 Swedish film on the contributions of Bardeen, Cooper, and Schrieffer to the theory of superconductivity. Papers also contain Illiniwek cap.

Biographical Note

May 23, 1908 Born, Madison, Wisconsin - son of Medical School Dean Charles R. Bardeen and Althea Harmer

1923 University High and Madison Central

1928 B.S. Wisconsin, Electrical Engineering. Western Electric. Edward Bennett electrodynamics course

1929 M.S. Wisconsin, Electrical Engineering. J. H. Van Vleck

1930-33 Geophysicists, Gulf Research and Development Corporation - Leo J. Peters

1936 Ph.D. Princeton, Mathematics and Physics. E. P. Wigner

1935-38 Junior Fellow, Harvard. J. H. Van Vleck and P. W. Bridgman

1938 Married Jane Maxwell, July 18

1939-41 Assistant Professor of Physics, University of Minnesota

1941-45 Principal Physicist, U. S. Naval Ordnance Laboratory (Washington D.C.), magnetism and minesweeping

1945-51 Radar, Bell Telephone Laboratories, Murray Hill, New Jersey

1947 Surface physics - properties of contacts between metals of semi-conductors depend on electron behavior in surface energy levels

1948 Transistors with William B. Shockley and Walter Brattain. Point contact type

1951-75 Professor of Physics and Electrical Engineering, University of Illinois. Louis Ridenour. Xerox Corporation

1952 Transistor literature

March 1953 Fortune article on transistors

Theoretical understanding of semiconductors

Explained why metal-germanium contact gives effect of a PN junction in a emiconductor - in terms of surface energy states

1956 National Academy of Science member

1957 Theory of Superconductivity - vanishing of electrical resistance of some metals at low temperatures

1975 Professor Emeritus, University of Illinois

January 30, 1991 Died, Boston, Massachusetts

Research Areas:

Electrical conduction in semiconductors and metals; surface properties of semiconductors; theory of superconductivity; and diffusion of atoms in solids

Prizes and Honors:

1952 Ballantine Medal, Franklin Institute

1954 Buckley Prize (solid state)

1955 Scott Medal, D.Sc. Union

1956 Nobel Prize for Physics

1960 D.Sc. University of Wisconsin

1962 London Prize

1972 Nobel Prize for Physics

1974 D.Sc. University of Illinois

1977 Presidential Medal of Freedom

1987 Lomonosov Award, Soviet Academy of Sciences

1990 John Bardeen Chair in Physics and Electrical and Computer Engineering Established at University of Illinois

Subject/Index Terms

Bardeen, John
Bell Laboratories
Electrical Engineering
Faculty Papers
Harvard University
John Bardeen
Many Body Theory
Naval Ordnance Laboratory
Nobel Prizes
Princeton University
Science and Technology
Solid State Physics
Superconductivity
Theoretical Physics
Transistors
Union of Soviet Socialist Republics - Science and Technology
University of Illinois Center for Advanced Study
University of Wisconsin-Madison
Xerography

Administrative Information

Repository: University of Illinois Archives

Accruals: 12/22/1964; 2/8/1965; 2/19/1974; 9/10/1991; 12/20/1991; 5/19/1992; 9/27/2002; 5/14/2003, 5/23/2007; 10/2016; 8/11/2022

PDF Box/Folder List

URL: https://files.archon.library.illinois.edu/uasfa/1110020.pdf

PDF finding aid for John Bardeen Papers (11/10/20)

Box and Folder Listing

Browse by Series:

[Series 1],
[Series 2: Publications],
[Series 3: Dissertations (Produced by Bardeen Students)],
[Series 4: Correspondence],
[Series 5: Subject File],
[Series 6: Biographical [2002]],
[Series 7: Correspondence [2002]],
[Series 8: Subject File [2002]],
[Series 9: Awards and Honors [2003]],
[Series 10: Biographical [2022]],
[Series 11: Publications [2022]],
[Series 12: Correspondence [2022]],
[Series 13: Awards and Honors [2022]],
[Series 14: Family Life [2022]],
[Series 15: Publicity [2022]],
[Series 16: Subject File [2022]],
[Series 17: Irregularly Sized Materials [2022]],
[Series 18: Reference Materials [2025]],
[Series 19: Restricted Materials],
[Series 20: ARC Artifacts],
[All]

Series 2: Publications

Box 4

Folder 9: Complete list of John Bardeen's publications, 1930-91
Folder 10: 1. Diffraction of Circularly Symmetrical Electromagnetic Wave by a Co-Axial Circular Disc of Infinite Conductivity, Phys. Rev. 36, 1482-1488 (1930).
Folder 11: 3. Some Aspects of Electrical Prospecting Applied in Locating Oil Structures, J. of Appl. Phys. 2, 103-122 (1932).
Folder 12: 4. Theory of the Work Functions of Monovalent Metals (with E. Wigner), Phys. Rev. 48, 84-87 (1935).
Folder 13: 5. Theory of the Work Function II. The Surface Double Layer, Phys. Rev. 49, 653-663 (1936).

Box 5

Folder 1: 6. Conductivity of Monovalent Metals, Phys. Rev. 52, 688-697 (1937).
Folder 2: 7. On the Density of Energy Levels of Heavy Nuclei, Phys. Rev. 51, 799-803 (1937).
Folder 3: 8. Compressibilities of Alkali Metals, J. Chem. Phys. 6, 372-378 (1938).
Folder 4: 9. An Improved Calculation of the Energies of Metallic Li and Na, J. Chem. Phys. 6, 367-371 (1938).
Folder 5: 10. Symmetry Effects in the Spacing of Nuclear Energy Levels (with E. Feenberg), Phys. Rev. 54, 809-818 (1938).
Folder 6: 11. Expressions for the Current in the Bloch Approximation of “Tight Binding” for Metallic Electrons, (with J. H. Van Vleck), Proc. Natl. Acad. of Sci. 25, 82-86 (1939).
Folder 7: 12. Concentration of Isotopes by Thermal Diffusion: Rate of Approach to Equilibrium, Phys. Rev. 57, 35-41 (1940). [Erratum, Phys. Rev. 58, 94 (1940).]
Folder 8: 13. Electrical Conductivity of Metals, J. Appl. Phys. 11, 88-111 (1940).
Folder 9: 14. The Image and Van der Waals Forces at a Metallic Surface, Phys. Rev. 58, 727-736 (1940).
Folder 10: 15. The Production of Concentrated Carbon (13) by Thermal Diffusion (with A. O. Nier), J. Chem. Phys. 9, 690-692 (1941).
Folder 11: 16. Theory of Superconductivity (abstract), Phys. Rev. 59, 923 (1941).
Folder 12: 17. Investigation of Oxidation of Copper by Use of Radioactive Cu Tracer (with W. H. Brattain and W. Shockley), J. Chem. Phys. 14, 714-721 (1946).
Folder 13: 18. The Quadruple Moments and Spins of BR, Cl, and N Nuclei (with C. H. Townes, A. N. Holden and F. R. Merritt), Phys. Rev. 71, 644-645 (1947).
Folder 14: 19. Surface States and Rectification at a Metal Semi-Conductor Contact, Phys. Rev. 71, 717-727 (1947).
Folder 15: 20. Calculation of Nuclear Quadrupole Effects in Molecules (with C. H. Townes). Phys. Rev. 73, 97-105 (1948).
Folder 16: 21. Second Order Corrections to Quadrupole Effects in Molecules (with C. H. Townes), Phys. Rev. 73, 627-629 (1948).
Folder 17: 22. The Transistor, a Semi-Conductor Triode (with W. H. Brattain), Phys. Rev. 74, 230-233 (1948).
Folder 18: 23. Nature of Forward Current in Germanium Point Contacts (with W. H. Brattain), Phys. Rev. 74, 231-232 (1948).
Folder 19: 24. Electrical Properties of Pure Silicon and Silicon Alloys Containing Boron and Phosphorus (with G. L. Pearson), Phys. Rev. 75, 865-883 (1949).: Erratum corrections in Phys. Rev. 77, 303 (1950).
Folder 20: 25. Physical Principles Involved in Transistor Action, Phys. Rev. 75, 1208-1225 (1949).
Folder 21: 26. Pressure Change of Resistance of Tellurium, Phys. Rev. 75, 1777-1778, (1949).
Folder 22: 27. Diffusion in Binary Alloys, Phys. Rev. 76, 1403-1405 (1949).: Includes Calculations
Folder 23: 28. On the Theory of the A-C Impedance of a Contact Rectifier, Bell Syst. Tech. J. 28, 335 (1949).
Folder 24: 29. Effects of Electrical Forming on the Rectifying Barriers of n- and p-Germanium Transistors (with W. G. Pfann), Phys. Rev. 77, 401-402 (1950).
Folder 25: 30. Energy Bands and Mobilities in Monatomic Semiconductors (with W. Shockley), Phys. Rev. 77, 407-408 (1950).
Folder 26: 31. Deformation Potentials Mobilities in Non-polar Crystals (with W. Shockley), Phys. Rev. 80, 72-80 (1950).
Folder 27: 32. Scattering of Electrons in Crystals in the Presence of Large Electric Fields (with W. Shockley), Phys. Rev. 80, 69-71 (1950).
Folder 28: 33. Theory of Relation between Hole Concentration and Characteristics of Germanium Point Contacts, Bell Syst. Tech. J. 29, 469-495 (1950).
Folder 29: 34. Zero-point Vibrations and Superconductivity, Phys. Rev. 79, 167-168 (1950).
Folder 30: 35. Wave Functions for Superconducting Electrons, Phys. Rev. 80, 567-574 (1950).
Folder 31: 36. Choice of Guage in London’s Approach to the Theory of Superconductivity, Phys. Rev. 81, 469-470 (1951).
Folder 32: 37. Relation between Lattice Vibration and London Theories of Superconductivity, Phys. Rev. 81, 829-834 (1951).
Folder 33: 38. Field Variation of Superconducting Penetration Depth, Phys. Rev. 81, 1070-1071 (1951).
Folder 34: 39. Criterion for Superconductivity, Phys. Rev. [u]82[/u, 978-979 (1951).
Folder 35: 40. Diffusion in Alloys and the Kirkendall Effect (with C. Herring) in Atom Movements, published by American Society for Metals, Cleveland, Ohio, 87-111 (1951).: Also published as “Imperfections in Nearly Perfect Crystals,” W. Shockley, ed., John Wiley and Sons, New York (1952), pp. 261-289
Folder 36: 41. The Effects of Pressure and Temperature on the Resistance of p-n Junctions in Germanium (with H. H. Hall and G. L. Pearson), Phys. Rev. [u]84[u], 129 (1951).
Folder 37: 42. Electron-Vibration Interactions and Superconductivity, Rev. Mod. Phys. 23, 261-270 (1951).: Includes calculations
Folder 38: 43. Book Review. Phase Transformations in Solids, ed. by R. Smoluchowski, J. E. Meyer and W. A. Weyl, John Wiley and Sons, New York (1951).: Reviewed in Physics Today, 5, No. 5, p. 25 (1952).
Folder 39: 44. Abstract. Change in Superconducting Penetration Depth with Field, Phys. Rev. 87, 192 (1952).
Folder 40: 45. Abstract. The Interaction of Exictons and Phonons (with P. Leurgans), Phys. Rev. 87, 200 (1952).
Folder 41: 46. Superconductivity and Lattice Vibrations in “Low Temperature Physics,” National Bureau of Standards Circular 519, Washinton, D. C., pp. 5-10 (1952).
Folder 42: 47. Surface Properties of Germanium (with W. H. Brattain), Bell Syst. Tech. J. 32, 1-41 (1953).
Folder 43: 49. Flow of Electrons and Holes in Semiconductors in Symposium on the Present State of Physics, F. S. Brackett, ed., AAAS, Washington, D.C., 128-150 (1954).
Folder 44: 50. Theory of Boundary Effects of Superconductors, Phys. Rev. 94, 554-563 (1954).
Folder 45: 51. Electrolytic Analog Transistor (with H. Letaw, Jr.), J. Appl. Physics, 25, 600-606 (1954).
Folder 46: 52. Infrared Absorption Spectrum of Germanium (with L. H. Hall and F. J. Blatt), Phys. Rev. 95, 559-560 (1954).
Folder 47: 54. Surface Barriers and Surface Conductance (with S. R. Morrison), Physica 20, 873-884 (1954).
Folder 48: 55. Progress in the Theory of Superconductivity. Abstract for Wash. Mtg., Nat. Acad. Sci., April (1955).
Folder 49: 56. Theory of Meissner Effect in Superconductors, Phys. Rev. 97, 1724-1725 (1955).
Folder 50: 57. Electron-Phonon Interaction in Metals (with D. Pines), Phys. Rev. 99, 1140-1150 (1955).
Folder 51: 58. Indirect Transitions from the Valence to the Conduction Bands (with F. J. Blatt and L. H. Hall), Photoconductivity Conference, John Wiley and Sons, pp. 146-154 (1956).
Folder 52: 59. Surface Conductance and the Field Effect on Germanium (with R. E. Coovert, S. R. Moorison, J. R. Schrieffer, and R. Sun), Phys. Rev. 104, pp. 47-51 (1956).
Folder 53: 60. Interaction between Electrons and Lattice Vibrations, Canadian J. Phys. 34, 1171-1189 (1956).
Folder 54: 61. Theory of Superconductivity, Encyclopedia of Physics, Vol. 15, 274-369, Springer-Verlag (1956).

Box 6

Folder 1: 62. Microscopic Theory of Superconductivity (with L. N. Cooper and J. R. Schrieffer), Phys. Rev. 106, 162-164 (1957).
Folder 2: 63. Nuclear Polarization and Impurity-State Spin Relaxation Processes in Silicon (with D. Pines and C. P. Slichter), Phys. Rev. 106, 489-498 (1957).
Folder 3: 64. The Science of Engineering Materials, J. E. Goldman, Editor. John Wiley and Sons, Inc., New York (1957). Chap. 2, p. 22-43, Structure of Atoms and Atomic Aggregates, (with J. E. Goldman and W. Bitler).
Folder 4: 65. Same as 64, Chapter 4, p. 82-102, Crystal Imperfections.
Folder 5: 66. Semi-conductor Research Leading to Point-Contact Transistor, Les Prex Noble in 1956, Stockholm (1957). Reprinted in Science 126[/u, p. 105-112 (1957), also in German translation in Physikalische Blatter [u]10, 436-456 (1957).
Folder 6: 67. Guage Invariance and the Energy Gap Model of Superconductivity, Nuovo-Cimento 5, 1766-1769 (1957).
Folder 7: 68. Theory of Superconductivity (with L. N. Cooper and J. R. Schrieffer), Phys. Rev. 108, 1175-1204 (1957).
Folder 8: 69. Comments on Implications of Transistory Research, Proc. I. R. E. 46, 953 (1958).
Folder 9: 71. Theory of the Anomalous Skin Effect in Normal and Superconducting Metals, (with D. C. Mattis) Phys. Rev. 111, p. 412-417 (1958).
Folder 10: 72. Theory of Superconductivity, Physica 24, 527-534 (1958).
Folder 11: 73. Two-Fluid Model of Superconductivity, Phys. Rev. Letters, Vol. 1, p. 399 (1958).
Folder 12: 74. Theory of Superconductivity. Low Temperature Physics and Chemistry, Proc. Fifth Intl. Low Temp. Conf., J. R. Dillinger, ed., Univ. Wisconsin Press (1958), p. 251.
Folder 13: 75. Methods for Determination of the Distribution of Surface States on Ge and Si, in Halbleiter and Phosphors, ed. by M. Schön and H. Welker, F. Vieweg and Sohn, Braunschweig (1958), p. 81-97.
Folder 14: 77. Conduction: Metals and Semiconductors, in [u]Handbook of Physics[u], ed. by E. V. Condon and H. Odishaw, McGraw-Hill, New York (1958), p. 52-65, Sec. 8.
Folder 15: 78. Flow of Electrons and Holes in Semiconductors, in Handbook of Physics, ed. by E.V. Condon and H. Odishaw, McGraw-Hill, New York (1958), p. 52-65, Sec. 8.
Folder 16: 79. Theory of Thermal Conductivity of Superconductors (with G. Rickayzen and L. Tewordt), Phys. Rev. 113, 982-994 (1959).
Folder 17: 80. Trends in Semiconductor Research, J. Phys. Chem. Solids 8, 2-6 (1959).
Folder 18: 82. Basic Research on Semiconductors, Proc. I.E.E., Vol 106, Part B, Suppl. No. 15, 1959, p. 268-9, Paper 3071E (Jan. 1960).
Folder 19: 83. Ground-State Energy and Green’s Function for Reduced Hamiltonian for Superconductivity (with G. Rickayzen), Phys. Rev. [u]118[u], 936-937 (1960).
Folder 20: 84. Tunneling from a Many-Particle Point of View, Phys. Rev. Letters 6, 57-59 (1961).
Folder 21: 85. Recent Developments in Superconductivity (with J. R. Schrieffer), in Progress in Low Temperature Physics, Vol. III, C. J. Gorter, ed. North Holland Publishing Co. (1961), p. 180-287.
Folder 22: 86. Recent Research in Semiconductors, Direct Current, 6, 1-3 (1961).
Folder 23: 87. Closing speech, International Conference on Semiconductor Physics, Prague, 1960; Proceedings, Prague, 1961, p. 1108-1109.
Folder 24: 88. Quantization of Flux in a Superconducting Cylinder, Phys. Rev. Letters 7, 162-163 (1961).
Folder 25: 89. Review of the Present Status of the Theory of Superconductivity, IBM Journal of Research and Development 6, 3-11 (1962).
Folder 26: 90. Tunneling into Superconductors, Phys. Rev. Letters 9, 147-149 (1962).
Folder 27: 91. Critical Fields and Currents in Superconductors, Rev. Mod. Phys. 34, 667-681 (1962).
Folder 28: 92. Development of Concepts in Superconductivity, Physics Today 16, 19-28 (1963).: Also to be published in the Proceedings of the Eighth International Conference on Low Temperature Physics (1963)
Folder 29: 93. Superconductivity, Chap. 16, p. 281-292, in Advanced in Materials Research in the United Nations, H. Brooks, N. H. Mason N. E. Promisel, and G. H. Cooper, ed. Pergamon Press, London, 1963.
Folder 30: 94. Trends in Semiconductor Research, Electronic Industries, June 1963, p. C12-C17.
Folder 31: 95. Superconductivity, Cargese Lectures in Theoretical Physics, Benjamin, New York 1963, p. VI-1 – VI-36.
Folder 32: 98. Electron Correlation and Screening Effects in Relation to Surface Physics, Surface Science 2, 381-389, H. C. Gatos, ed. North-Holland Publishing Co., Amsterdam, 1964.
Folder 33: 99. Free-Energy Difference Between Normal and Superconducting States (with M. Stephen), Phys. Rev. 136, 1485-1488A (1964).
Folder 34: 100. Motion of Quantized Flux Lines in Superconductors, Phys. Rev. Letters 13, 747-748 (1964).
Folder 35: 101. Viscosity of Type-II Superconductors (with M. J. Stephen), Phys. Rev. Letters 14, 112-113 (1965).
Folder 36: 102. Theory of Motion of Vortices in Superconductors (with M. J. Stephen), Phys. Rev. 140 A1197-1207 (1965).
Folder 37: 103. Basic Research in the Industrial Laboratory, in Science and Society: A Symposium, W. A. Benjamin, Inc., New York pp. 56-71, (1965).
Folder 38: 104. Introduction to the Symposium on Superfluids, in Low Temperature Physics LT9, Part A. J. G. Daunt, D. O. Edwards, F. J. Milford and M. Yaqub, editors, Plenum Press, New York, 1965, p. 3-7.

Box 7

Folder 1: 105. Understanding Superconductivity, 1964 Lecture on Outstanding Research, Amer. Soc. For Testing Materials, 1965.
Folder 2: 106. Theory of Vortex Motion, in Superconductors in Quantum Fluids, Proceedings of the Sussex University Symposium 16-20, August 1965. North-Holland Publishing Co., Amsterdam, edited by D. F. Brewer, pp. 109-123 (1966).
Folder 3: 107. Interactions Between He^3 Atoms in Dilute Solutions of He^3 in Superfluid H^4 (with G. Baym and D. Pines), Phys. Rev. Letters 17, 372-375 (1966).
Folder 4: 108. Superconductors and Superfluids. In Quantum Theory of Atoms, Molecules, and Solid State, P. Lowden, ed., Academic Press, pp. 511-536 (1966).
Folder 5: 109. Effective Interaction of He3 Atoms in Dilute Solutions of He^3 in H^4 at Low temperatures (with G. Baym and D. Pines), Phys. Rev. 156, 207-221 (1967).
Folder 6: 110. Theory of Superconductivity. In Superconductivity in Science and Technology, ed. by M. H. Cohen, University of Chiago Press, p. 1-17, (1968).
Folder 7: 111. Macroscopic Quantum Effects and Vortex Motion in Superconductors, Proc. Of the Xth International Conferences on Chemical Research, December 4-6, 1967, Houston, Texas, pp. 167-183 (1967).
Folder 8: 112. Superconductors and Superfluids. Reprinted from Proceedings of the Robert. A. Welch Foundation Conferences on Chemical Research, December 4-6, 1967 – Houston, Texas, pp. 167-183 (1967).
Folder 9: 113. Advances in Superconductivity. Physics Today 22, (Oct) 40-46 (1969).
Folder 10: 114. Structure of Vortex Lines in Pure Superconductors (with R. Kümmel, A. E. Jacobs, and L. Tewordt), Phys. Rev. 187, 2:556-569 (1969).
Folder 11: 115. Transport in Nonhomogeneous Superconductors, Physica 55, 114-123 (1971) (Proceedings of International Conference on the Science of Superconductivity, 1969).
Folder 12: 116. Josephson Current Flow in Pure Superconducting – Normal – Superconducting Junctions (with J. L. Johnson), Phys. Rev. B5, 72-78 (1972).
Folder 13: 116.5 Three Men Who Changed Our World—25 Years Later. Bell Laboratories Record, Dec. 1972.
Folder 14: 117. Model for an Exciton Mechanism of Superconductivity (with David Allender, James Bray), Phys. Rev. B78, 1020-1029 (1973).
Folder 15: 118. Electron-Phonon Interactions and Superconductivity. In Les Prix Nobel in 1972, Nobel Foundation, Stockholm (1973). Also in Physics Today, Vol. 26, No. 7, 41-47 (1973) and in Science, Vol. 181, pp. 1209-1214 (1973).
Folder 16: 119. History of Superconductivity Research. In Impact of Basic Research on Technology, B. Kursunoglu and A. Permutter, editors, Plenum Press, New York, pp. 15-55 (1973).
Folder 17: 120. Solid State Physics: Accomplishments and Future Prospects. In Physics 50 Years Later, Nat. Acad. Sci., Washington, pp. 165-190 (1973).
Folder 18: 121. Electron-Phonon Interactions and Superconductivity. In Cooperative Phenomena, H. Haken and M/ Wagner, eds., Springer-Verlag, Berlin0Heidelberg, pp. 63-79 (1973).
Folder 19: 122. Superconducting Fluctuations in One-Dimensional Organic Solids, Solid State Comm. 13, pp. 357-359 (1973).
Folder 20: 123. Comment on “Model for an Exciton Mechanism for Superconductivity” – A Reply (with David Allender and J. W. Bray), Phys. Rev. B8, 4433-4435 (1973).
Folder 21: 124. Theory of Fluctuation Superconductivity from Electron-Phonon Interactions in Pseudo-One-Dimensional Systems (with David Allender and J. W. Bray), Phys. Rev. B9, Jan. 1974).
Folder 22: 125. Flux Flow in Nearly Pure Low-κ Superconductors (with R. D. Sherman), Phys. Rev. B 12, 2634-2639 (1975).
Folder 23: 126. Possibility of Excitonic Superconductivity. In Superconductivity in d- and f-Band Metals, edited by D. H. Douglass, Plenum Publ. Co., New York, pp. 1-5 (1976).
Folder 24: 127. Superconductivity: Past and Future, Indus. Research 18, 1-13 (1976).
Folder 25: 129. Basic Research and Industrial Development; Superconductivity: Past and Future; and Development of Semiconductor Electronics. In Pahlavi Lecture Series, Vol. I, edited by Ministry of Science and Higher Education. Offset Press, Tehran, Iran, pp. 207-267 (1977).
Folder 26: 130. Summary Remarks. In Lecture Notes in Physics. Vol. 65, Organic Conductors and Semiconductors. Proceedings of the International Conference, Siófok, Hungary, 1976, edited by L. Pal, G. Grüner, A. Janossy and J. Sólyom, Plenum, New York, pp. 13-22 (1977).
Folder 27: 131. Motion of Flux Lines in Nearly Pure Superconductors, Phys. Rev. B17, 1472-1473 (1978).
Folder 28: 132. Evolution of Superconductivity. Proceedings of the 16th International Conference on Low Temperature Physics, Journal de Physique, C6, 1368-1373 (1978).
Folder 29: 133. Non-equilibrium Phenomena in Superconductors, Proc. International Conference and Winter School on Frontiers of Theoretical Physics, edited by F. C. Auluck, and L. S. Kothari and V. S. Nanda, (McMillan, Delhi, 1978), pp. 17-27.
Folder 30: 134. Excitonic Superconductivity, J. Less-Common Metals, 62, 447-450 (1978).
Folder 31: 135. Concluding Remarks. In Quasi One-Dimensional conductors, Proceedings International Conference. Dubrovnik, Yugoslavia, 1978, Springer-Verlag, Lecture Notes in Physics, Vol. 95 (1979), 3-11.
Folder 32: 135.5 Recent Developments and Comments, in Highly Conducting One-Dimensional Solids, ed. by Jozef T. Devreese, Roger P. Evrard and Victor E. Van Doran, Plenum Pub. Corp. (1979).
Folder 33: 136. Theory of Nonohmic Conduction from Charge Density Waves in NbSe3 , Phys. Rev. Lett. 42, 1498-1500 (1979).
Folder 34: 137. Reminiscences of Early Days of Solid State Physics, Proc. Roy. Soc. (London), A371, 77-83 (1980).: Also published in Beginnings of Solid State Physics, N. F. Mott, editor, Royal Society (London), (1980).
Folder 35: 138. Unity of Concepts in the Structure of Matter, Ann. Rev. Mater. Sci. 10, 1-18 (1980).
Folder 36: 139. Tunneling Theory of Charge-Density Wave Depinning, Phys. Rev. Lett. 45, 197801980 (1980).

Box 8

Folder 1: 140. Unity of Concepts in the Structure of Matter (with Chien-hua Tsai). Prog. in Physics 1, 1-30 (1981). Revised and enlarged version of 140. [in Chinese.]
Folder 2: 141. Disorder of an AℓAs-CaAs Superlattice by Impurity Diffusion (with W. D. Laidig, N. Holonyak, Jr., M. D. Camras, K. Hess, J. J. Coleman and P. D. Dapkus). Appl. Phys. Lett. 38, 776-778 (1981).
Folder 3: 142. Field and Frequency Dependence of Charge-Density-Wave Conduction in NbSe3 (with G. Grünner, A. Zettl, W. G. Clark). Phys. Rev. [u]B24[u], 7247-7257 (1981).
Folder 4: 143. Tunneling Theory of AC-Induced DC Conductivity for Charge-Density-Wave Conduction in NbSe3
Folder 5: 144. Depinning of Charge-Density Waves by Tunneling, Proceedings of the International Conference on Low-Dimensional Conductors, Boulder Colorado, August, 1981, Mol. Cryst. Liq. Cryst. 81, 719- (1981).
Folder 6: 145. Current Oscillations and Stability of Charge-Density-Wave Motion in NbSe3 (with E. Ben Jacob, A. Zettl and G. Grüner). Phys. Rev. Lett. 49, 493-496 (1982).
Folder 7: 146. Superconductivity: Theory, in Encyclopedia of Materials Science & Engineering, Pergamon Press (1986).
Folder 8: 147. Comments on Shielding by Surface States, In [u]Near Zero, New Frontiers of Physics[u], p. 874 (1988), Stanford (1982).
Folder 9: 148. Evidence for Tunneling of Charge-Denisty Waves in TaS3 (with J. H. Miller, Jr., J. Richard and J. R. Tucker). Phys. Rev. Lett. 51, 1592-1595 (1983).
Folder 10: 148.5 Die Frühzeit des Transistors: 1946 bis 1955, Physik in unserer Zeit, 6 (1983).
Folder 11: 149. Charge Transport by Charge-Density Waves in Linear-Chain Conductors. Lectures for International School of Physics “Enrico Fermi,” Varena, Italy, July 4-6 (1983).
Folder 12: 149.5 Decoupling of ac Dynamics from dc Polarization below Threshold for Charge-Density Waves in NbSe3 (with J. H. Miller, Jr., J. Richard, R. E. Thorne, N. G. Lyons, and J. R. Tucker), Phys. Rev. B. 29, 4 22328-2330 (1984).
Folder 13: 150. Depinning of Charge-Density-Wave by Quantum Tunneling. In Electronic Properties of Inorganic Quasi-one-Dimensional Compounds, P. Monceau, editor in Physics and Chemistry of Materials with Low-Dimensional Structures, series B: Quasi-One-Dimensional Structures (D. Reidel Publishing Co.). (1985).
Folder 14: 150.5 Beginnings of Solid State Physics and Engineering, The Bridge, 14, no. 4, p. 8 (1984).: Also reprinted in The Bent, vol. LXXVI no. 2, Spring (1985).
Folder 15: 151. To a Solid State. Science ’84, November, 143-154 (1984).
Folder 16: 152. Soliton Theory of Charge Density Wave Depinning, Physica 126B&C, 342-345 (1984). Proceedings of the 17th International Conference on Low Temperature Physics, Karlsruhe, Germany 15-22 August, 1984.
Folder 17: 153. Soliton Model of Charge-Density-Wave Depinning (with J. R. Tucker). Proceedings of Conference on Charge-Density Waves in Solids, Budapest, Sept. 2-5, 1984. Lecture Notes in Physics, Springer-Verlag, Berling (1985), v. 217, p. 155.
Folder 18: 154. Dynamics of Charge-Density-Waves in Orthorhombic TaSe3 (with J. H. Miller, Jr., R. E. Thorne, W. G. Lyons, and J. R. Tucker). Phys. Rev. B 31, 5229 (1985).
Folder 19: 155. Macroscopic Quantum Tunneling in Quasi One-Dimensional Metals. II. Theory. Phys. Rev. Lett. 55, 1010-1013 (1985).
Folder 20: 156. Phase Locking in Charge-Density-Wave Transport (with R. E. Thorne, J. R. Tucker, S. E. Brown and G. Grüner). Phys. Rev. B 33, 7342-7345 (1986).
Folder 21: 157. Development of a Tunneling Model of Charge-Density-Wave Depinning (with W. G. Lyons, J. W. Lyding, J. H. Miller, Jr., R. E. Thorne and J. R. Tucker). Proceedings of the International Conference on Synthetic Metals, Kyoto, Japan, June 2-6, 1986, Synthetic Metals 19, 1-6 (1987).
Folder 22: 158. Depinning of Charge-Density Waves by Quantum Tunneling. Proceedings of the Yamada Conference on the Physics and Chemistry of Quasi One-Dimensional Solids, Lake Kawaguchi, Japan, May 26-30, 1986, Physica 143 B&C, 14-19 (1986).
Folder 23: 158.5 Summary Remarks on CDW’s: Yamada Conference, Proceedings of the Yamada Conference on the Physics and Chemistry of Quasi One-Dimensional Solids, Lake Kawaguchi, Japan, May 26-30, 1986, Physica 143B, 571-72 (1986).
Folder 24: 159. Experiment Versus the Classical Model of Deformable Charge-Density Waves: Interference Phenemena and Mode Locking (with R. E. Thorne and J. R. Tucker). Phys. Rev. Lett. 58, 828-831 (1987).
Folder 25: 159.5 Comment on “Bulk Superconductivity at 91K in Single-Phase Oxygen Deficient Perovskite Ba(2)YCU(3)O(9-delta), Phys. Rev. Lett. 30 November 1987.
Folder 26: 160. Pre-history of the Semiconductor Laser. Optoelectronics, 2, No. 1, 124-125 (1987).
Folder 27: 161. Basis for Tunneling Theory of Charge-Density-Wave Depinning. Z. Phys. B. 67, 427-433 (1987).
Folder 28: 162. Solid State Physics – 1947. Solid State Tech., Dec. 1987, 69-71 (1987).
Folder 29: 163. Charge-Density-Wave Transport in Quasi-One-Dimensional Metals (with R. E. Thorne, W. G. Lyons, J. W. Lyding and J. R. Tucker). Phys. Rev. B 35, I, 6348-6359; II, 6360-6372 (1987).
Folder 30: 164. Excitonic Superconductivity in Layer Structures (with D. M. Ginsberg and M. B. Salamon). Novel Superconductivity, Stuart A. Wolf and Vladimir Z. Kewsin, editors, Plenum Press, New York, 330341 (1987).
Folder 31: 165. Theories of High Tc Superconductors. Mat. Rev. Soc. Symp. Proc. 99, 27-30 (1988).
Folder 32: 166. Classical vs. Quantum Models of Charge-Density Wave Depinning in Quasi-1D Metals, Phys. Rev. B39, 3528-3531 (1989).
Folder 33: 167. Depinning of Charge-Density Waves by Quantum Tunneling. Proc. of Nobel Symposium on Physics of Low-Dimensional Systems, Physica Scripta T27, 136-1432 (1989).
Folder 34: 168. Universal Threshold Polarization of Charge-Density Waves: Applications to Blue Bronze. Phys. Rev. Lett. 62, 2985-2988 (1989).
Folder 35: 169. Theory of Size Effects in Depinning of Charge-Density Waves, Phys. Rev. Lett. 64, 2297-2299 (1990).
Folder 36: 170. Microscopic Theory of Charge-Density Wave Transport in a volume [in Russian] Commemorating the 70th Birthday of V. L. Ginzburg) (1990).
Folder 37: 171. Phase Coherence in Charge-Density Wave Transport, Advances in Theoretical Physics (1990), Proceedings of the Langau Birthday Symposium, Cophenhagen, 13-17 June, 1988, p. 118.
Folder 38: 172. Superconductivity and other… Phys. Today 43, 25 (1990)
Folder 39: 173. Superconductivity: Theory. In Encyclopedia of Magnetic and Superconducting Materials, (J. E. Evetts, ed.) () (to appear).
Folder 40: Quantum versus Classical Approaches
Folder 41: Low Temperature Physics, 1962: Folder 1 of 2
Folder 42: Low Temperature Physics, 1962: Folder 2 of 2
Folder 43: Electronics and Medicine, 1983
Folder 44: Notes on Inorganic Quasi-one-dimensional Metals Linear-chain Conductors
Folder 45: Comments on DOE [Department of Engergy] Multipurpose Laboratories for Federal Lab Panel, 1982
Folder 46: Discussion Group on “Interaction of Industry and University Research”
Folder 47: Lecture Presented at Pahlavi University, Iran, “Development of Semiconductor Electronics”, 1975