Publications of Jens Lothe


  1. J. Holtsmark, J. Lothe, S. Tjotta, and W. Romberg. A Theoretical Investigation of Sound Transmission Through Horns of Small Flare, with Special Emphasis on the Exponential Horn. Archiv fur Mathematik og Naturvidenskab, B. LIII, Nr. 8 (1956).

  2. J. Lothe. The Elastic Constants of Alkali Halide Crystals at Absolute Zero. Arch. Math. Naturvidenskab, BLV, Nr. 4 (1959).

  3. J. Lothe and J. P. Hirth. Dislocation Dynamics at Low Temperatures. Phys. Rev., 115, 543 (1959).

  4. J. Lothe. Acoustic Radiation Force on a Uniformly Moving Smooth Body, to First Order in the Velocity. J. Acoust. Sc. Am., 32, 140 (1960).

  5. J. Lothe. Die Bordoni-Relaxation. Kritik der Dontschen Theorie. Z. fur Physik, 157, 457 (1960).

  6. J. Lothe. Aspects of the Theory of Dislocation Mobility and Internal Friction. Phys. Rev., 117, 704 (1960).

  7. J. Lothe. Theory of Dislocation Climb in Metals. J. Appl. Phys., 31, 1077 (1960).

  8. J. Lothe. Lorentz Force on a Screw Dislocation and Related Problems. Phys. Rev., 122, 78 (1961).

  9. J. Lothe and G. M Pound. Reconsiderations of Nucleation Theory. J. Chem. Phys., 36, 2080 (1962)

  10. J. Lothe. Theory of Dislocation Mobility in Pure Slip. J. Appl. Phys., 33, 2116 (1962).

  11. J. Lothe. The Effect of Temperature on Dislocations with Condensed Impurity Atmospheres. Theory of Dislocation Motion and Dislocation Break-Away. Acta Metallurgica, 10, 663 (1962).

  12. T. Jøssang, K. Skylstad, and J. Lothe. Theory of Thermal Activation of Dislocations over the Peierls Barrier in a Revised Seeger-Donth Formulation. in The Relation between the Structure and Mechanical Properties of Metals, Proc. Conf. NPL, Teddington, 527 (1963).

  13. J. Lothe, K. C. Russell, and G. M. Pound. Theory of Homogeneous Nucleation in Condensation. in Condensation and Evaporation. Gordon and Breach Science Publishers, Inc. New York (1963).

  14. J. Feder and J. Lothe, with J. P. Hirth, K. C. Russell, and G. M. Pound. Homogeneous Nucleation in Condensation, Progress in Aeronautics and Astronautics, vol. 15, 667, Academic Press (1964).

  15. J. Feder and J. Lothe. Magnetoresistance and Hall Effect due to Bragg Reflection of Free Electrons in Aluminium. Phil. Mag.,12, 107 (1965).

  16. T. Jøssang, J. Lothe, and K. Skylstad. Explicit Expressions for the Energy of Dislocation Configurations Made Up of Piecewise Straight Segments. Acta Met., 13, 271 (1965).

  17. T. Jøssang, M. J. Stowell, J. P. Hirth, and J. Lothe. On the Determination of Stacking Fault Energies from Extended Dislocation Node Measurements. Acta Met., 13, 279 (1965).

  18. T. Jøssang, J. Lothe, and J. P. Hirth. Dislocation Energies and the Concept of Line Tension. J. Appl. Phys., 37, 110 (1966).

  19. J. Feder, K. C. Russell, J. Lothe, and G. M. Pound. Homogeneous Nucleation of Droplets in Vapours. Adv. in Phys., 15, 111 (1966).

  20. J. Lothe and J. P. Hirth. Elastic and Core Anisotropies for the <111> Screw Dislocation in Cubic Crystals. tat. phys. ol., 15, 487 (1966).

  21. J. Lothe and G. M. Pound. On the Statistical Mechanics of Nucleation Theory. J. Chem. Phys., 45, 660 (1966).

  22. E. Ditlefsen and J. Lothe. Theory of Size Effects in Electrical Conductivity. Phil. Mag., 14, 759 (1966).

  23. J. Lothe. Simplified Considerations of the Onsager Symmetry in the General Diffusion Equation of Nucleation Theory. J. Chem. Phys., 45, 2678 (1966).

  24. J. Lothe. Energy Transport in Dislocation Motion. Phil. Mag., 15, 9 (1967).

  25. J. Lothe. Dislocation Bends in Anisotropic Media. Phil. Mag., 15, 353 (1967).

  26. J. Lothe and J. P. Hirth. Glide of Jogged Dislocations. Can. J. Phys., 38, 845 (1967).

  27. J. Lothe and J. P. Hirth. Dislocation Climb Forces. J. Appl. Phys., 38, 845 (1967).

  28. B. Husstad and J. Lothe. The Effect of Small Angle Scattering in Thin Film Conductivity. Physica Norvegica, 2, 153 (1967).

  29. J. Lothe. The Force on a Dislocation Emerging at a Free Surface. Phys. Norv., 2, 153 (1967).

  30. J. P. Hirth and J. Lothe. Theory of Dislocations (book). McGraw-Hill (1968).

  31. J. Lothe and J. P. Hirth. Interactions Between Moving Dislocations. in Dislocation Dynamics, eds., A. R. Rosenfield, G. T. Hahn, A. L. Bement, and R. J. Jaffee, McGraw-Hill (1968).

  32. J. Lothe. Tre teoremer i dislokasjonsteori angaende sammenhengen mellom energi og krefter. Bevis og noen anvendelser. Begrepet linjetensjon. Doktoravh. Universitetet I Oslo (1968). Stensil.

  33. J. Lothe and G. M. Pound. Replacement Factor in a Linear Chain. Phys. Rev., 182, 339 (1969).

  34. M. M. Shukla and J. Lothe. A Formula for the Orientational Derivative of Dislocation Energy Factor. Scripta Metallurgica, 3, 317 (1969).

  35. J. P. Hirth and J. Lothe. Stress Fields of Dislocation Segments. in Physics of Strength and Plasticity, ed. A. S. Argon, 39 , The MIT Press (1969).

  36. J. Lothe. The Image Force on Dislocations at Free Surfaces. Comments on the Concept of Line Tension. in Fundamental Aspects of Dislocation Theory, vol. 1, eds. Simmons, de Wit, and Bullough, NBS Special Publ. 317, (December, 1970).

  37. K. Malen and J. Lothe. Explicit Expressions for Dislocation Derivatives. Physica Status Solidi, 39, 287 (1970).

  38. J. P. Hirth, K. Malen, and J. Lothe. On Simple Analytical Solutions for Anisotropic Elastic Fields of Dislocations. Scripta Met., 5, 231 (1971).

  39. K. Malen and J. Lothe. Comment on Dislocations Moving with the Rayleigh Wave Velocity, Phys. Stat. Sol. (b), 43, 651 (1971).

  40. J. Brækhus and J. Lothe. Dislocations At and Near Planar Interfaces. Phys. Stat. Sol. (b), 43, 651 (1971).

  41. J. Lothe. Dislocations in Anisotropic Media. in Computational Solid State Physics, eds. Herman, Dalton, & Koehler. Plenum Press (1972).

  42. J. Brækhus and J. Lothe. Isotropic Limiting Behavior of the Six-Dimensional Formalism of Anisotropic Dislocation Theory and Anisotropic Green's Function Theory. I. Sum Rules and Their Applications. Phys. Stat. Sol. (b), 51, 645 (1972).

  43. J. Brækhus and J. Lothe. Dislocation Jog and Kink Interactions in Ionic Crystals. Phys. Stat. Sol. (b), 51, 149 (1972).

  44. K. Nishioka and J. Lothe. Isotropic Limiting Behavior of the Six-Dimensional Formalism of Anisotropic Dislocation Theory and Anisotropic Green's Function Theory. II. Perturbation Theory on the Isotropic N-matrix. Phys. Stat. Sol. (b), (1972).

  45. K. Nishioka and J. Lothe. Perturbation Method for Non-Semisimple Matrices. Phys. Norv., 6, 171 (1972).

  46. J. P. Hirth and J. Lothe. Anisotropic Elastic Solution for Line Defects in High Symmetry Cases. J. Appl. Phys., 44, 1029 (1973)

  47. D. M. Barnett, K. Nishioka, and J. Lothe. Elastic Surface Waves in Anisotropic Media. A Formulation for the Purpose of Rapid Numerical Calculation. Phys. Stat. Sol. (b), 2, #55, K115 (1973).

  48. D. M. Barnett, J. Lothe, K. Nishioka, and R. J. Asaro. Elastic Surface Waves in Anisotropic Crystals. A Simplified Method Using Dislocation Theory. J. Phys. F (Metal Physics), F3, 1083 (1973).

  49. D. M. Barnett and J. Lothe. Synthesis of the Sextic and the Integral Formalism for Dislocations, Green's Functions, and Surface Waves in Anisotropic Elastic Solids, Phys. Norv., 7, 13 (1973).

  50. R. J. Asaro, J. P. Hirth, D. M. Barnett, and J. Lothe. A Further Synthesis of Sextic and Integral Theories for Dislocations and Line Forces in Anisotropic Media. Phys. Stat. Sold. B60. 261 (1973).

  51. J. Lothe, R. J. Asaro, D. M. Barnett, and J. P. Hirth. Comments of the Indenbom-Alshits Theory for Dislocations in Anisotropic Media. Phys. Stat. Sol. (b), 66, K79 (1974).

  52. D. M. Barnett and J. Lothe. An Image Force Theorem for Dislocations in Anisotropic Bicrystals. J. Phys. F (Metal Physics), 4, 1618 (1974).

  53. D. M. Barnett and J. Lothe. Consideration of the Existence of Surface Wave (Rayleigh Wave) Solutions in Anisotropic Elastic Crystals, J. Phys. F (Metal Physics), 4, 671 (1974).

  54. D. M. Barnett and J. Lothe. Line Force Loadings on Anisotropic Half-Spaces and Wedges. Phys. Norv., 8, 13 (1975).

  55. D. M. Barnett and J. Lothe. Dislocations and Line Charges in Piezoelectric Insulators. Phys. Stat. Sol. (b), 67, #1, 105 (1975).

  56. J. Lothe and D. M. Barnett. On the Existence of Surface Wave Solutions for Anisotropic Half-Spaces with Free Surface, J. Appl. Phys., 47, 428 (1976).

  57. J. Lothe and D. M. Barnett. Integral Formalism for Surface Waves in Piezoelectric Crystals. Existence Considerations. J. Appl. Phys., 47, 1799 (1976).

  58. J. Lothe and D. M. Barnett. Further Development of the Theory for Surface Waves in Piezoelectric Crystals. Phys. Norv., 8, 239 (1977).

  59. J. Lothe and V. I. Alshits. On the Existence Criterion for Quasibulk Surface Waves. Sov. Phys. Crystallogr., 22, 519 (1977).

  60. O. Lohne and J. Lothe. Image Force and Dislocation Configurations as Seen by the Lang X-Ray Technique. Scripta Met., 11, 23 (1977).

  61. D. M. Barnett and J. Lothe. The Existence of Rayleigh (Surface) Wave Solutions in Anisotropic Linear Elastic Half-Spaces. in Modern Problems in Elastic Wave Propagation, eds. J. Miklowitz and J. D. Achenbach, 445, John Wiley and Sons (1978).

  62. V. I. Alshits and J. Lothe. Surface Waves in Hexagonal Crystals. Sov. Phys. Crystallogr., 23, 509 (1978).

  63. V. I. Alshits and J. Lothe. Elastic Waves in Triclinic Crystals. I. General Theory and the Degeneracy Problem. Sov. Phys. Crystallogr., 24, 387 (1979).

  64. V. I. Alshits and J. Lothe. Elastic Waves in Triclinic Crystals. II. Topology of Polarization Fields and Some General Theorems. Sov. Phys. Crystallogr., 24, 393 (1979).

  65. V. I. Alshits and J. Lothe. Elastic Waves in Triclinic Crystals. III. The Problem of Existence of Exceptional Waves and Some of their General Properties. Sov. Phys. Crystallogr., 24, 644 (1979).

  66. J. P. Hirth, D. M. Barnett, and J. Lothe. Stress Fields of Dislocation Arrays at Interfaces in Bicrystals. Phil. Mag., 40, 39 (1979).

  67. J. Lothe and D. M. Barnett. On the Existence of Surface Wave Solutions in Piezoelectric Crystals. An Example of Non-Existence. Wave Motion, 1, 107 (1979).

  68. V. N. Lyubimov, V. I. Alshits, and J. Lothe. Body Waves and Quasi-Body Surface Waves in a Semi-Infinite Piezoelectric Medium. Sov. Phys. Crystallogr., 25, 16 (1980).

  69. P. Holm and J. Lothe. The Topological Nature of the Polarization Field for Body Waves in Anisotropic Elastic Media. Proc. Roy. Soc. (London) A, 370, 331 (1980).

  70. V. I. Alshits and J. Lothe. Comments on the Relation Between Surface Wave Theory and the Theory of Reflection. Wave Motion, 3, 297 (1981).

  71. J. P. Hirth and J. Lothe. Theory of Dislocations, 2nd Edition, John Wiley and Sons (1982).

  72. J. Lothe, V. L. Indenbom, and V. A. Chamrov. Elastic Field and Self-Force of Dislocations Emerging at the Free Surface on an Anisotropic Half-Space. Phys. Stat. Sol. (b), 111, 671 (1982).

  73. J. Lothe. Dislocations in Anisotropic Media. The Interaction Energy. Phil. Mag., 46, 177 (1982).

  74. V. I. Alshits, A. Kessenikh, and J. Lothe. Energy Flux, Group and Phase Velocities of Acoustic Waves in Piezoelectrics. Ferroelectrics, 42, 103 (1982).

  75. A. Yu. Belov, V. A. Chamrov, V. L. Indenbom, and J. Lothe. Elastic Fields of Dislocations Piercing the Interface of an Anisotropic Bicrystal. Phys. Stat. Sol. (b), 119, 565 (1983).

  76. V. I. Alshits, J. Lothe, and V. N. Lyubimov. The Phase Shift for Reflection of Elastic Waves in Hexagonal Piezoelectric Crystals. Wave Motion, 6, 259 (1984).

  77. D. M. Barnett and J. Lothe. Free Surface (Rayleigh) Waves in Anisotropic Elastic Half-Spaces: The Surface Impedance Method. Proc. Roy. Soc. London A, 402, 135 (1985).

  78. D. M. Barnett, J. Lothe, S. D. Gavazza, and M. J. P. Musgrave. Considerations of the Existence of Interfacial (Stoneley) Waves in Bonded Anisotropic Elastic Half-Spaces. Proc. Roy. Soc. Lond. A, 402,153 (1985).

  79. H. O. K. Kirchner and J. Lothe. The Redundancy of the N-Matrix of Anisotropic Elasticity. Phil. Mag. A, 53, L7 (1986).

  80. J. Lothe and D. M. Barnett. Present Status of Existence Conditions for Surface Waves. in Proceedings of the International Symposium on Surface Waves in Solids and Layered Structures, Novosibirsk (1986).

  81. D. M. Barnett and J. Lothe. On the Existence of Type 6 Transonic States in Linear Elastic Media of Cubic Symmetry. Proc. Roy. Soc. Lond. A, 411, 251 (1987).

  82. S. A. Gundersen, D. M. Barnett, and J. Lothe. Rayleigh Wave Existence Theory. A Supplementary Remark. Wave Motion, 9, 319 (1987).

  83. S. A. Gundersen and J. Lothe. A New Method for Numerical Calculations in Anisotropic Elasticity. Phys. Stat. Sol. (b), 143, 73 (1987).

  84. H. O. K. Kirchner and J. Lothe. Displacements and Tractions along Interfaces. Phil. Mag. A, 56, 583 (1987).

  85. S. A. Gundersen, D. M. Barnett, and J. Lothe. A New Method for Surface Impedance and Surface Wave Calculations. Proceedings of Euromech 226, Nottingham, UK, September 2-5,1987. Springer Series on Wave Phenomena, vol. 7. Springer-Verlag, Berlin, Heidelberg (1988).

  86. D. M. Barnett, S. D. Gavazza, and J. Lothe. Slip Waves Along the Interface Between Two Anisotropic Elastic Half-Spaces in Sliding Contact. Proc. Roy. Soc. Lond. A, 415, 389 (1988).

  87. S. A. Gundersen, D. M. Barnett, and J. Lothe. Generalized Shear Horizontal Waves. Proceedings from ISSWAS'89 and AE-89, September 14-19, 1989, Varna, Bulgaria. World Scientific Publ. Co., Singapore (1990).

  88. D. M. Barnett, J. Lothe, and S. A. Gundersen. Zero Curvature Transonic States and Free Surface Waves in Anisotropic Elastic Media. Wave Motion, 12, 341 (1990).

  89. S. A. Gundersen, L. Wang, and J. Lothe. Secluded Supersonic Elastic Surface Waves. Wave Motion, 14, 129 (1991).

  90. D. M. Barnett and J. Lothe. Conditions Admitting the Existence of Type 3 Transonic States in Stable Anisotropic Linear Elastic Media. J. Mech. Phys. Solids, 40, #7, 1433 (1992).

  91. L. Wang and J. Lothe. Simple Reflection in Anisotropic Elastic Media and its Relation to Exceptional Waves and Supersonic Surface Waves. I. General Theoretical Considerations. II. Examples. Wave Motion, 16, 89-99 and 101-112 (1992).

  92. Elastic Strain Fields and Dislocation Mobility, eds. V. L. Indenbom and J. Lothe, series Modern Problems in Condensed Matter Science, v. 31, North-Holland, Amsterdam (1992).

  93. J. Lothe. Dislocations in Continuous Elastic Media. Ch. 2 in [92], P. 175.

  94. J. Lothe. Dislocations in Anisotropic Media. Ch. 4 in [92], P. 269.

  95. J. Lothe. Dislocations Interacting with Surfaces, Interfaces or Cracks. Ch. 5 in [92], P. 329.

  96. J. Lothe. Uniformly Moving Dislocations; Surface Waves. Ch. 7 in [92], P. 4.

  97. V.L. Indenbom, B.V. Petukhov, and J. Lothe. Dislocation Motion over the Peierls Barrier. Ch. 8 in [92], P. 489.

  98. V. I. Alshits, A. N. Darinskii, and J. Lothe. On the Existence of Interface Waves in Half-Infinite Anisotropic Elastic Media with Piezoelectric and Piezomagnetic Properties. Wave Motion, 16 , 265 (1992).

  99. L. Wang and J. Lothe. Existence of Second Slip Waves in Anisotropic Elastic Media. Wave Motion, 16, 89 (1992).

  100. J. Lothe and L. Wang. Properties of Type 6 Transonic States With Respect to Grazing Incidence Reflection of Bulk Waves at Planar Free or Clamped Surfaces of Half-Infinite Elastically Anisotropic Media. Wave Motion, 20, 41 (1994).

  101. V. Alshits, A. Darinskii, J. Lothe, and V. N. Lyubimov. Surface Acoustic Waves in Piezocrystals: An Example of Surface Wave Existence with a Clamped Boundary. Wave Motion, 19, 113 (1994).

  102. V. I. Alshits, D. M. Barnett, A. Darinskii, and J. Lothe. On the Existence Problem for Localized Acoustic Waves on the Interface Between Two Piezocrystals. Wave Motion, 20, 233 (1994).

  103. J. Lothe and L. Wang. Self-Orthogonal Sextic Formalism for Anisotropic Elastic Media; Spaces of Simple Reflection and Two-Component Surface Waves. Wave Motion, 21, 163 (1995).

  104. A. Shuvalov and J. Lothe. The Stroh Formalism and the Reciprocity Properties of Reflection-Transmission Problems in Crystal Piezo-Acoustics. Wave Motion, 25, 331 (1997).

  105. L. Wang and J. Lothe. Self-Orthogonal Sextic Formalism for Simple Reflection and Mode Conversion at the Free Surface of an Anisotropic Elastic Half-Space. Proc. Ry. Soc. Lond. A, 453, 897 (1997).

  106. A. Darinskii, V. I. Alshits, J. Lothe, V. N. Lyubimov and A. L. Shuvalov. An Existence Criterion for the Branch of Two-Component Surface Waves in Anisotropic Elastic Media. Wave Motion, 28, 241 (1998).

  107. J. Lothe. Linear Relations in the Dislocation Stroh Vector System, Derived by Energy Considerations. Scripta Met., 39, 389 (1998).

  108. J. P. Hirth, H. M. Zbib, and J. Lothe. Forces on High Velocity Dislocations. Modelling and Simulation in Materials Science and Engineering, 6, 165 (1998).

  109. A. Darinskii, V. I. Alshits, and J. Lothe. Simple Reflection and Leaky Waves in the Vicinity of a Line of Exceptional Bulk Waves. Wave Motion, 30, 253 (1999).

  110. V. I. Alshits and J. Lothe. Some Basic Properties of Bulk Elastic Waves in Anisotropic Media. Wave Motion, 40, 297 (2004).

  111. V. I. Alshits and J. Lothe. Acoustic Axes in Trigonal Crystals. Wave Motion, 43, 177 (2006).

  112. J. Lothe and J. P. Hirth. Dislocation Core Parameters. Physica Status Solidi (b), 242, 836 (2005).

  113. J. P. Hirth, R. C. Pond, and J. Lothe. Disconnections in Shear Walls, Acta Materialia, 54, 4237 (2006).

  114. J. P. Hirth, R. C. Pond, and J. Lothe. Spacing Defects and Disconnections in Grain Boundaries, Acta Materialia, 55. 5428 (2007).

  115. J. Lothe and V. I. Alshits. Surface Waves, Limiting Waves and Exceptional Waves: David Barnett's Role in the Development of the Theory. Mathematics & Mechanics of Solids, 14, #1, 16 (2009).

  116. D. M. Barnett and J. Lothe. Preface. Wave Motion, 50 (#8, dedicated to V. I. Alshits on the Occasion of his 70th Birthday), 1175 (2013).

  117. P. M. Anderson, J. P. Hirth, and J. Lothe. Theory of Dislocations (book), 3rd Edition, Cambridge Univ. Press, (in press, 2016).