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Selected Scientific Papers of Alfred Landé de P. Barut

Selected Scientific Papers of Alfred Landé: Fundamental Theories of Physics, cartea 22

Editat de P. Barut, Alwyn van der Merwe
en Limba Engleză Hardback – 30 noi 1987
Theoretical physicists allover the world are acquainted with Lande's celebrated computation of the g factor or splitting factor or, more precisely, the magne­ togyric factor. The so-called anomalous Zeeman effect had intrigued, if not vexed, some of the most distinguished physicists of that time, such as Bohr, Sommerfeld, Pauli, and others. Lande realized that this recalcitrant effect was inseparable from the multiplet line structure - a breakthrough in understanding which he achieved in 1922 at the age of thirty four. It was in the same year that Lande discovered the interval rule for the separation of multiplet sublevels, a significant result that holds in all cases of Russell-Saunders coupling and renders comparatively easy the empirical analysis of spectral multiplets. In the twenties, Lande succeeded in constructing some original concepts of axiomatic thermodynamics by employing Caratheodory's somewhat esoteric approach as his guiding concept. Published in the Handbuch der Physik, his comprehensive treatise, evincing several novel ideas, has become a classic. Lande, Sommerfeld's student though never a true disciple, published two monographs on quantum mechanics that are remarkable for their content and exposition. In this connection it may be apposite to stress that Lande had sub­ scribed for many years to the (infelicitously named) Copenhagen interpretation.
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Specificații

ISBN-13: 9789027725943
ISBN-10: 9027725942
Pagini: 580
Ilustrații: XII, 557 p.
Dimensiuni: 155 x 235 x 36 mm
Greutate: 0.97 kg
Ediția:1988
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Fundamental Theories of Physics

Locul publicării:Dordrecht, Netherlands

Public țintă

Research

Cuprins

2. ‘Quanteneffekt im Hochfrequenzspektrum’, Phys. Z. 15, 793–794..- 3. ‘Zur Theorie der Helligkeitsschwankungen’, Phys, Z. 15, 946–952..- 4. ‘Einige neue Experimente zur Quantenhypothese und deren theoretische Bedeutung’, Naturwiss, 3, 17–23..- 6. ‘Über ein Paradoxon der Optik’, Phys, Z, 16, 201–204..- 8. ‘Die Abzahlung der Freiheitsgrade in einer Elektronen wölke (strahlender Körper)’, Ann, Phys, (Leipzig) 50, 89–105..- 9. ‘Über die absolute Berechnung der Kristalleigenschafter mit Hilfe Bohrscher Atommodelle’ (with M. Born), Preuss, Akad, 45, 1048–1068..- 13. ‘Über die Berechnung der Kompressibilität regulärer Kristalle aus der Gittertheorie’ (with M. Born), Deut, Phys. Ges, 20, 210–216..- 14. ‘Kristallgitter under Bohrsches Atommodell’ (with M. Born), Deut, Phys. Ges, 20, 202–209..- 15. ‘Über Koppelung von Elektronenringen und das optische Drehungsvermögen asymmetrischer Moleküle’, Phys. Z. 19, 500–505..- 16. ‘Die Abstände der Atome im Molekül und im Kristall’ (with M. Born), Naturwiss. 6, 496. (Vorläufige Mitteilung.).- 17. ‘Elektronenbahnen im Polyederverband’, Preuss, Akad, 5, 101–106..- 18. ‘Antwort auf die Bemerkungen des Herrn L. Vegard zu unseren Arbeiten über Kristallgitter and Bohrsches Atommodell’ (withM. Born), Deut. Phys. Ges. 385–387..- 20. ‘Adiabatenmethode zur Quantelung gestörter Elektronensysteme’, Deut. Phys. Ges. 21, 578–584..- 21. ‘Eine Quantenregel für die räumliche Orientierung von Elektronenringen’, Deut. Phys. Ges. 21, 585–588..- 22b. ‘Das Serienspektrum des Heliums’, Phys, Z. 20, 228–234..- 23. ‘Über die Grösse der Atome’, Z. Phys, 2, 191–197..- 25. ‘Über ein dynamisches Würfelatom modell’ (with E. Madelung), Z. Phys. 2,230–235..- 26. ‘Über Würfelatome’, Phys. Z. 21, 626–628..- 27. ‘Störingstheorie des Heliumatoms’, Phys, Z. 21, 114–122. (Habilitationsschrift, Frankfurt.).- 29a. ‘Über den anomalen Zeemaneffekt. Part 1’, Z. Phys. 5,231–241..- 29b. ‘Über den anomalen Zeemaneffekt. Part II’, Z. Phys, 5,398–405..- 30. ‘Anomaler Zeemaneffekt und Seriensysteme bei Ne und Hg’,Phys. Z, 22, 417–422..- 31. ‘Über den anomalen Zeemaneffekt’, Naturwiss. 9, 926–928..- 33. ‘Zur Theorie der anomalen Zeeman- und magnetomechanischen Effekte’, Z. Phys, 11, 353–363..- 35. ‘Fortschritte beim Zeemaneffekt’, Ergeb, Exakt, Naturwiss, 11, 147–162..- 36. ‘Zur Theorie der Röntgenspektren’, Z. Phys, 16, 391–396..- 37. ‘Zur Struktur des Neonspektrums’, Z. Phys, 17, 292–294..- 39. ‘Schwierigkeiten in der Quantentheorie des Atombaues,besonders magnetischer Art’, Phys, Z, 24, 441–444..- 43. ‘Termstruktur der Multipletts höherer Stufe’ (with W. Heisenberg), Z. Phys, 25, 279–286..- 44. ‘Über gestrichene und verschobene Spektralterme’, Z. Phys, 27, 149–156..- 45. Über den quadratischen Zeemaneffekt’, Z. Phys, 30,329–340..- 47. ‘Lichtquanten und Kohärenz’, Z. Phys, 33, 571–578..- 49. ‘Warum hat das System der chemischen Elemente die Periodenlängen 2, 8, 8, 18, 18, 32?,Naturwiss, 13, 604–606..- 50. ‘Zur Quantentheorie der Strahlung’, Z. Phys, 35, 317–322..- 51. ‘Ein Experiment über Kohärenzfähigkeit von Licht’ (with W. Gerlach), Z. Phys, 36, 169–173..- 52. ‘Neue Wege der Quantentheorie’, Naturwiss, 14, 455–458..- 54. ‘Zur Wellenmechanik der Kontinua und Elektrodynamik’, Z.Phys, 44, 768–772..- 55. ‘Spontane Quantenübergänge’, Z. Phys, 42, 835–839..- 56. ‘Zu Diracs Theorie desKreiselelektrons’, Z. Phys, 48, 601–606..- 62. ‘Zur Quantenelektrik von G. Mie’, Z. Phys, 57, 713–722..- 63. ‘Polarisation von Materiewellen’, Naturwiss, 17, 634–637..- 64. ‘Zur Quantenmechanik der Gasentartung’, Z. Phys, 74, 780–784..- 65. The Magnetic Moment of the Proton’, Phys, Rev, 44,1028–1029..- 66a,b. ‘Neutrons in the Nucleus. Parts I and II’, Phys, Rev, 43,620–623; 43, 634–626..- 67. ‘Nuclear Magnetic Moments and Their Origin’, Phys, Rev, 46, 477–480..- 68. ‘Critical Remarks on the Interpretation of Quantum Theory’,J.Franklin Inst, 226, 83–98..- 69. ‘Transitions between Levels Spaced Almost Continuously’,Phys, Rev, 54, 940–944..- 71a. ‘Sommerfeld’s Fine Structure Constant and Born’s Reciprocity’, J, Franklin Inst, 228, 495–502..- 72. ‘The Structure of Electric Particles and the Number 137’, Phys,Rev, 56, 486..- 73a. ‘On the Existence and the Magnitude of Electronic Charges’, J,Franklin Inst. 229, 161–174..- 73b. ‘On the Stability and Magnitude of Electroonic Charges. Part II, Scalar Wave Functions’ (with L. H. Thomas), J. Franklin Inst. 231, 63–70..- 74a. ‘Finite Self-Energies in Radiation Theory. Part I’, Phys. Rev. 60, 121–127..- 74b. ‘Finite Self-Energies in Radiation Theory. Part IP (with L. H. Thomas), Phys. Rev. 60, 514–523..- 75. ‘On the Magnitude of Electronic Charges’, Phys, Rev, 59, 434–435..- 76. ‘Finite Self-Energies in Radiation Theory. Part 11’ (with L. H. Thomas), Phys, Rev, 65, 175–184..- 77. ‘Interaction between Elementary Particles. Part I’, Phys, Rev, 76, 1176–1179..- 78. ‘The Physical Significance of the Reciprocal Lattice of Crystals’, Am, Scientist76, 414–416..- 79. ‘Interaction between Elementary Particles’. Part 11’,Phys. Rev. 77, 814–816..- 80. ‘On Advanced and Retarded Potentials’, Phys. Rev. 80, 283..- 81. ‘Thermodynamic Continuity and Quantum Principles’, Phys. Rev. 87, 267–271..- 82. ‘Quantum Mechanics and Thermodynamic Continuity’,Am.J, Phys, 20, 353–359..- 84. ‘Probability in Classical and Quantum Theory’, Scientific Papers Presented to Max Born (Oliver and Boyd, Edinburgh), pp. 59–64..- 85. ‘Quantum Mechanics, a Thermodynamic Approach’, Am, Scientist41, 439–448..- 86. ‘Quantum Mechanics and Thermodynamic Continuity. IP, Am, J, Phys, 22, 82–87..- 89. ‘Le Principe de Continuité et la Théorie des Quanta’, J, Phys, Radium16, 353–357..- 92. ‘Deduction de la Théorie Quantique a Partir de Principes Non-Quantiques’, J. Phys, Radium17, 1–4..- 94. ‘yp Superposition and Quantum Rules’, Am. J. Phys. 24, 56–59..- 95. ‘Wellenmechanik und Irreversibilität’, Physik, Blätter13, 312–314..- 97. Superposition and Quantum Periodicity’, Phys, Rev, 108, 891–893..- 101. ‘Quantum Theory from Non-Quantal Postulates’, in Berkeley Symposium on the Axiomatic Methode pp. 353–364..- 102. ‘Zur Quantentheorie der Messung’, Z.Phys, 153, 389–393..- 104. ‘From Dualism to Unity in Quantum Mechanics’, Brit. J, Phil, Sei. 10, 16–24..- 105. ‘Heisenberg’s Contracting Wave Packets’, Am. J, Phys, 27, 415–417..- 107. ‘Warum interferieren die Wahrscheinlichkeiten?’, Z.Phys, 164, 558–562..- 108. ‘Ableitung der Quantenregeln auf nich-quantenmässiger Grundlage’, Z. Phys, 162, 410–412..- 109. ‘Dualismus, Wissenschaft und Hypothese’, in Werner Heisenberg und die Physik unserer Zeit, Fritz Bopp, ed. (Vieweg, Braunschweig, 1961), pp. 119–127..- 110. ‘Unitary Interpretation of Quantum Theory’, Am,J, Phys, 29,503–507..- 116. ‘Quantum Fact and Fiction’, Am, J, Phys, 33, 123–127..- 117. ‘Discussion: Solution of the Gibbs Entropy Paradox’, J, Phil. Sci. 32, 192–193..- 120. ‘Quantum Fact and Fiction. 11’, Am, J, Phys, 4, 1160–1163..- 125. ‘Quantenmechanik, Beobachtung und Deutung’, IntJ, Theor, Phys, 1, 51–60..- 129. ‘Quantum Fact and Fiction. Ill’, Am. J, Phys, 37, 541–548..- 130. ‘Unity in Quantum Theorie’, Found, Phys, 1, 191–202..- 133. ‘Quantum Fact and Fiction. IV’, Am, J, Phys, 43, 701–704..- 136. ‘Physikalische Theorie der Beugung von Materieteilchen’, Ann.Phys, (Leipzig) 33, 88–92..- Appendices.- A. Alfred Landé: A Biographical Sketch.- B. Alfred Landé: An Autobiography.- C. Letter to Allen D. Breck.- D. Books by Alfred Landé.- E. Handbook Review Articles by Alfred Lande.- F. Papers of Alfred Landé.