LIST OF PUBLICATIONS

LIST OF PUBLICATIONS Books Published Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity (Wiley, New York, 1972...
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LIST OF PUBLICATIONS Books Published Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity (Wiley, New York, 1972). Russian Edition: Gravitatsia e Kosmologia (Editorial Mir, Moscow, 1975). Chinese Edition: Yin Lun He Yuzhou Lun (Science Press, Beijing, 1984). The First Three Minutes: A Modern View of the Origin of the Universe (Basic Books, Inc., New York, 1977). U.K. edition: The First Three Minutes (Andre Deutsch, London, 1977). German edition: Die ersten drei Minuten (R. Piper and Co., Verlag, Munich, 1977). Italian edition: I Primi Tre Minuti (Arnoldo Mondadori, Milan, 1977 ). Japanese edition: Uchu Sohsei, Hajime no Sanpunken (Diamond Inc., Tokyo, 1978). Swedish edition: De f¨ orsta tre minuterna (Rab´en and Sj¨ogren, Stockholm, 1978). French edition: Les trois premi`eres minutes de l’universe (Editions du Seuil, Paris, 1978). Spanish edition: Los tres primeros minutos del Universo (Alianza Universidad, Madrid, 1978). Finnish edition: Kolme ensimm¨ aist¨ a minnuttia (Kustannusosakeyhti¨o Tammi, Helsinki, 1978). Danish edition: De første tre minutter (Gyldendalske Boghandel, Copenhagen, 1979). Brazilian edition: Os Trˆes Primeiros Minutos (Guanabara Dois, Rio de Janeiro, 1980). Norwegian edition: De Første Tre Minutter (Dreyers Forlag, Oslo, 1979). Polish edition: Pierwsze Trzy Minuty (ISKRY, Warsaw, 1980; Pr´oszy´ nskii S-ka, Warsaw, 1998). Hungarian edition: Az Els¨ o H´ arom Perc (Gondolat, Budapest 1982) Czech edition: Prvn´ı Tˇri Minuty (Mlad´a Fronta, Prague, 1983) Russian edition: Perve Tri Minuti (Energonsdat, Moscow, 1981) Netherlands edition: De Eerste Drie Minuten (Natuur en Techniek, Maastricht-Brussel 1983) Chinese edition: Zuichu San fen Zhong, yuzhou qiyuan de Xiandai guan dian (Printing Office, Chinese Academy of Sciences, Peking, 1981) Bulgarian edition: Prvite Tri Minuti Sled Stvorenieto (Nauka i Izkustvo, Sofia, 1984) Egyptian edition: (AL- Ghad Publishing Co., Cairo,1986). Estonian edition: Esimesed Kolm Minutit(Valgus, Talinn, 1988) Greek edition: Ta P´rota Tr´ıa Lept´ a (Editions Eirmos, Athens, 1991) Korean edition: (Yang Moon Publishing, 2005). Japanese paperback edition: (Chikumashobo Ltd., 2008). Spanish paperback edition: Los Tres Primeros Minutos del Universo (Alianza Editorial, Madrid, 2009; second printing 2013.) Second Italian edition: I Primi Tre Minuti (La Grande Biblioteca della Scienza, Milan, 2009) Roumanian edition: Primele Trei Minute Ale Universului (Editura Politic˝a, Bucharest, 1984) Russian edition, updated: Perve Tri Minuti (Publishing House EKSMO, Moscow, 2011) The Discovery of Subatomic Particles (Scientific American/Freeman, San Francisco, 1982). French edition: Le Monde Des Particules de l’ ´electron aux quarks (Pour la Science Diffusion Belin, Paris, 1985) German edition: Teile Des Unteilbaren (Spektrum der Wissenschaft, Heidelberg, 1985)

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Spanish edition: Particulas Subatomicas (Prensa Scientifica, S.A., Barcelona, 1985) Japanese edition: Denshi to Genshikaku no Hakken (Nikkei Science, Inc., Tokyo, 1986) Russian edition: Otkrytie Sukbatomnik Chastits (Editorial Mir, Moscow, 1986) Italian edition: La Scoperta delle Particelle Subatomiche (Zanichel li: Editore, Bologna, 1986) Flemish edition: Boukwstenen van het Atoom:De wetten van de Natuurkunde (Natuur & Techniek, Maastricht/Brussel, 1986) Turkish edition: Atomalti Par¸caciklar (Pop¨ uler) ilim Kitaplari, Ankara, 2002) Revised English Edition (Cambridge University Press, Cambridge, 2003). Japanese version of Revised English Edition (2006) Chinese version of Revised English Edition (Hunan Science and Technology Press, 2006) Roumanian edition: Descoperirea particulelor subatomice (Humanitas, Bucharest, 2007) Elementary Particles and The Laws of Physics – 1986 Dirac Memorial Lectures, with R.P. Feynman (Cambridge University Press, Cambridge, 1987) French edition: Particules et lois de la physique (InterEditions, Paris, 1989) Japanese edition: (1990, 2002) Spanish edition: Las Particlulas Elementales y las Leyes de la Fisica (Editorial Gedisa, Barcelona, 1991). Italian edition: Alla ricerca delle leggi ultime della fisica (Il Melangolo, Genoa, 1993). Russian edition: (Editorial Mir, Moscow, 2000) Turkish Edition: Temel Parcaciklar ve Fizik Yasalari (Alfa, Istanbul, 2015). Dreams of a Final Theory (Pantheon, New York, 1993; Hutchinson, London, 1993). Italian edition: Il Sogno Dell ’Unita Dell ’Universo (Arnoldo Mondadori Editores, Milan, 1993) German edition: Der Traum von der Einheit des Universums (C. Bertelsmann Verlag, Munich, 1993) Dutch edition: Dromen over een Alomvattende Theorie (Uitgeverij Contact, Amsterdam/Antwerp, 1993). Spanish edition (world): El sue˜ no de una teoria final (Cr´ıtica – Grijalbo Mondadori, Barcelona, 1994). Danish edition: Den Store Teori (Gyldendal, Copenhagen, 1994). Japanese edition: (Diamond, Tokyo, 1994). Brazilian edition: Sonhos de uma Teoria Final (Editoria Rocco Ltda., Rio de Janeiro, 1996). Chinese edition: Zui Zhong Li Lung: Zhi Ran Jie Ji Ben Fa Zhe De Tan Xun (Newton Publishing, Taipei, 1996) Czech edition: Snˇen´ı o fin´ aln´ı teorii (Nakladatelsv´ı Hynek, Prague, 1996). Greek edition: (Katoptro) Israeli edition: Chazon Ha-Teeoriah Ha-Sofeet (Am Oved Publishers, Tel Aviv, 1996) Polish edition: (Alkazar) Portuguese edition: Sonhos de uma Teoria Final (Gradiva, Lisbon, 1996) French edition: Le Rˆeve d’une Th´eorie Ultime (Editions Odile Jacob, Paris, 1997) Polish edition: Sen o Teorii Ostatecznej (Zysk i S-ka Wydawnctwo, Pozna´ n, 1997) Finnish edition: (Art House Group, Helsinki, 1999?) Russian edition: (URSS Publishers, Moscow, 2004, 2007) Chapter 11 reprinted in The Portable Atheist, C. Hitchens, ed. (Da Capo Press, 2007): 366–379

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Korean edition (Science Books Publishing Co., Ltd. 2007) Arabic edition (Dar El Shourok, Cairo, to be published) Chapter 6 reprinted in part in The Oxford Book of Modern Science Writing, R. Dawkins, ed. (Oxford University Press, 2008): 357-361. Roumanian edition: Visul Unei Teorii Finale (Humanitas, Bucharest, 1992, 2008) Serbian edition (Polaris, 1996). Spanish paperback edition: El Sue˜ no de Una Teor´ıa Final, transl. J. Garcia Sanz (Cr´ıtica, Barcelona, 2010). Russian edition (AST) Chapter 6 reprinted in Albert Einstein Memorial Lectures, J. D. Bekenstein and R. Mechoulam, eds. (The Israel Academy of Sciences and Humanities, Jerusalem, and World Scientific Publishing Co., Singapore). Chapter 10 reprinted in Models of God and Alternative Ultimate Realities, ed. J. Diller and A. Kasher (Springer, Dordrecht, 2013). The Quantum Theory of Fields — Volume I: Foundations (Cambridge University Press, Cambridge, 1995). Japanese edition: (Yoshioka Shoten, Kyoto, 1997) Italian edition: La Teori. a Quantistica dei Campi (Zanichelli, Bologna, 1999). Polish edition: Teoria P´ ol Kwantowych – Podstawy (Wydawnictwo Naukowe PWN, Warsaw, 1999). The Quantum Theory of Fields — Volume II: Modern Applications (Cambridge University Press, Cambridge, 1996). Japanese edition: (Yoshioka Shoten, Kyoto, 1998) Polish edition Teoria P´ ol Kwantowych – Nowoczesne Zastosowania (Wydawnictwo Naukowe PWN, Warsaw, 1999). Japanese paperback edition (2006) The Quantum Theory of Fields — Volume III: Supersymmetry (Cambridge University Press, Cambridge, 2000). Polish edition: Teoria P´ ol Kwantowych – Supersymetria (Wydawnictwo Naukowe PWN, Warsaw, 2001). Russian edition: Kvantovaya Teoria Polei – Tom 3 Superseemmetreya (?A??C, Moscow, 2002) paperback Japanese edition (Cambridge University Press, 2004) Chapter 7 reprinted in Russian in Philosophical Alternatives 15, No. 4, 3 (2006) Facing Up — Science and its Cultural Adversaries (Harvard University Press, 2001). Chinese complex character edition: (Commonwealth Publishing, 2004) Czech edition: Tv´ a˜r´ı v tv´ ar (Aurora, Prague, 2004) Chinese simplified character edition: (Shanghai Scientific and Technological Educational Publishing, 2004) ¨ Hungarian edition: Csillagokra l´ atni – Term´eszettudom´ any ´es filoz´fia (HVG KONYVEK, Budapest, 2005)

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Glory and Terror — The Growing Nuclear Danger (New York Review Books, New York, 2004) Cosmology (Oxford University Press, Oxford, 2008) Japanese edition, transl. Eiichiro Komatsu (Nippon Hyoron Sha Co., Ltd., 2013) Chinese edition (University of Science and Technology of China Press, Hefei, China, 2013). Russian edition Cosmologia (PERECOM press, Moscow, 2013). Lake Views — This World and the Universe (Harvard University Press, Cambridge, MA, 2009) Lectures on Quantum Mechanics (Cambridge University Press, 2012) German edition: Quantenmechanik (Pearson Deutschland GmbH, 2015) To Explain the World – The Discovery of Modern Science (HarperCollins, New York, 2015). UK edition: (Allen Lane, Penguin, London, 2015) Brazilian edition Para Explicar o Mundo - A Descoberta da Ciˇencia Moderna (Companhia das Letras, S˜ ao Paolo, 2015); Netherlands edition De Wereld Verklaard - De Ontdekking Van de Moderne Wetenschap (Athenaeum - Polak & Van Gennep, Amsterdam, 2015) Spanish edition: Explicar el Mundo -= El descubriniernto de la ciencia moderna (Taurus, Madrid, 2015) ´ Portuguese edition: Explicar O Mundo - A Hist´ oria da Ciˆencia da Antiguidade ` a Epoca Moderna, transl. F. S. Pereira (Marcador, Barcarena, 2015). Italian edition: Spiegare Il Mondo – La scoperta della scienza moderna, transl Tullio Cannillo (Mondadori, Milan, 2016).

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Articles 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35.

N–V potential in the Lee Model, Phys. Rev. 102, 285 (1956). Role of strong interactions in decay processes, Phys. Rev. 106, 1301 (1957). Time reversal invariance and θ2o decay, Phys. Rev. 110, 782 (1958). Divergenceless currents and K–meson decay (with R. Marshak, S. Okubo, E. C. G. Sudarshan, and W. B. Teutsch) Phys. Rev. Lett. 1, 25 (1958). Interaction current in strangeness violating decays (with R. Marshak, S. Okubo, E. C. G. Sudarshan, and W. B. Teutsch) Phys. Rev. 112, 665 (1958). Charge symmetry of weak interactions, Phys. Rev. 112, 1375 (1958). Nature of the vector interaction in µ− - absorption, Phys. Rev. Lett. 2, 223 (1959). Interference effects in leptonic decays, Phys. Rev. 115, 481 (1959). Electromagnetic Transitions between µ-meson and electron (with G. Feinberg), Phys. Rev. 116, 465 (1959). Interference effects in neutral K-particle decay (with S. B. Treiman), Phys. Rev. 116, 239 (1959). Electromagnetic corrections to isotopic spin conservation(with S. B. Treiman), Phys. Rev. 116, 465 (1959). On the phase factors in inversions (with G. Feinberg), Nuovo Cimento 14, 571 (1959). Transformation of muons into electrons (with G. Feinberg and P. Kabir), Phys. Rev. Lett. 3, 527 (1959). New test for ∆T = 12 in K + decay, Phys. Rev. Lett. 4, 87 (1960). High energy behavior in quantum field theory, Phys.Rev. 118, 838 (1960). Muon absorption in liquid hydrogen, Phys. Rev. Lett. 4, 575 (1960). Partially conserved currents and the K 0 meson (with J. Bernstein), Phys. Rev. Lett. 5, 481 (1960). Law of conservation of muons (with G. Feinberg), Phys. Rev. Lett. 6, 381 (1961). Conversion of muonium into antimuonium (with G. Feinberg), Phys. Rev. 123, 1439 (1961). The neutrino problem in cosmology, Nuovo Cimento 25, 15 (1962). Two stream instability in finite beams (with E. A. Frieman, M. L. Goldberger, K. M. Watson, and M. N. Rosenbluth), Physics of Fluids 5, 196 (1962). Cross Sections at High Energies, Phys. Rev. 124, 2049 (1961). Eikonal Method in Magnetohydrodynamics, Phys. Rev. 126, 1899 (1962). Broken Symmetries (with J. Goldstone and A. Salam), Phys. Rev. 127, 965 (1962). Universal neutrino degeneracy, Phys. Rev. 128, 1457 (1962). Elementary particle theory of composite particles, Phys. Rev. 130, 776 (1963). Non-field theory of non-elementary particles, Proceedings of the 1962 International Conference on High Energy Physics at CERN, 683. Quasiparticles and the Born Series, Phys. Rev. 131, 440 (1963). Systematic solution of multiparticle scattering problems, Phys. Rev. 133, B232 (1964). Feynman rules for any spin, Phys. Rev. 133, B1318 (1964). Potential theory calculations by the quasiparticle method, Phys. Rev. 133, B1589 (1964). Derivation of gauge invariance and the equivalence principle from Lorentz invariance of the S-matrix, Phys. Lett. 9, 357 (1964). Feynman Rules for any spin II. Massless particles, Phys. Rev. 134, 882 (1964). Perturbation theory for strong repulsive potentials, J. Math. Phys. 5, 743 (1964). Functional analysis and scattering theory (with M.Scadron and J.Wright), Phys. Rev. 135, B202 (1964).

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36. Photons and Gravitons in S-Matrix Theory: Derivation of Charge Conservation and Equality of Gravitational and Inertial Mass, Phys. Rev. 135, B1049 (1964). 37. Do Hyperphotons Exist?, Phys. Rev. Lett. 13, 495 (1964). 38. The Hose Instability Dispersion Relation, J. Math. Phys. 5, 1371 (1964). 39. Evidence that the Deuteron is Not an Elementary Particle, Phys. Rev. 137, B672 (1965). 40. Photons and Gravitons in Perturbation Theory: Derivation of Maxwell’s and Einstein’s Equations, Phys. Rev. 138, B988 (1965). 41. Phase of the CP-Invariance Violation in τ 0 Decay (with S. L. Glashow), Phys. Rev. Lett. (14), 835 (1965). 42. Quasiparticles in Perturbation Theory, in Lectures on Particle and Field Theory (Prentice-Hall, 1965), pp. 289– 403. 43. The Quantum Theory of Massless Particles, in Lectures on Particle and Field Theory (Prentice-Hall, 1965), pp. 405– 485. 44. Comments on Relativistic Supermultiplet Theories, Phys. Rev. 139, B597 (1965); reprinted in Symmetry Groups in Nucleon and Particle Physics, ed. by F. Dyson (W. A. Benjamin Co., 1966) p.236. 45. Infrared Photons and Gravitons, Phys. Rev. 140, B516 (1965). 46. Book Review of The Voices of Time, ed. by J. Fraser, New York Times Book Review, March 13, 1966, p. 12. 47. Why Build Accelerators, in Nature of Matter — Purposes of High Energy Physics, ed. by L. Yuan (Brookhaven Nat’l Lab No.888, 1963), pp. 71–73. 48. Current Commutator Theory of Multiple Pion Production, Phys. Rev. Lett. 16, 879 (1966). 49. Current Commutator Calculation of the K`4 Form Factors, Phys. Rev. Lett. 17, 336 (1966). 50. Dynamics at Infinite Momentum, Phys. Rev. 150, 1313 (1966). 51. Pion Scattering Lengths, Phys. Rev. Lett. 17, 616 (1966). 52. General Theory of Resistive Beam Instabilities, J. Math. Phys. 8, 614 (1967). 53. Dynamical Approach to Current Algebra, Phys. Rev. Lett. 18, 1 88 (1967). 54. Precise Relations between the Spectra of Vector and Axial-Vector Mesons, Phys. Rev. Lett. 18, 507 (1967). 55. Algebra of Fields (with T. D. Lee and B. Zumino), Phys. Rev. Lett. 18, 1029 (1967). 56. Sum Rules for the Spectral Functions of SU(3) × SU(3) (with S. L. Glashow and H. J. Schnitzer), Phys. Rev. Lett. 19, 139 (1967). 57. Convergent Calculation of Nonleptonic K Decay in the Intermediate- Boson Model (with S. L. Glashow and H. J. Schnitzer), Phys. Rev. Lett. 19, 205 (1967). 58. A Model Of Leptons, Phys. Rev. Lett. 19, 1264 (1967); reprinted in Gauge Invariance, ed. by T. P. Cheng & L-F Li (Amer. Assn. Physics Teachers, 1990); reprinted in The Discoveries – Great Breakthroughs in 20th Century Science, by Alan Lightman (Pantheon Books, NY, 2005) 59. Current Algebra Calculation of Hard-Pion Processes: A1 → ρ + π and π → ρ + ρ (with H. J. Schnitzer), Phys. Rev. 164 , 1828 (1967). 60. Breaking Chiral Symmetry (with S. L. Glashow), Phys. Rev. Lett. 20, 224 (1968). 61. Nonlinear Realizations of Chiral Symmetry, Phys. Rev. 166, 15 68 (1968). 62. Current Algebra, Rapporteur’s Report, XIV International Conference on High-Energy-Physics, Vienna, 1968 (CERN, Geneva, 1968), pp.253–278. 63. Remarks on Gravitational Radiation, International Symposium on Contemporary Physics, Trieste, Italy, 1968, pp.1–3. 64. Structure of Three-Point Functions from SU(3) × SU(3) Algebra (with I. S. Gerstein and H. J. Schnitzer), Phys. Rev. 175, 1873 (1968).

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65. An Overview (with A. Chayes, J. B. Wiesner, and G. W. Rathjens), in ABM — An Evaluation of the Decision to Deploy an Antiballistic Missile System (Harper & Row, New York, 1969), 3–60. 66. What Does Safeguard Safeguard?, in ABM — An Evaluation of the Decision to Deploy an Antiballistic Missile System (Harper & Row, New York, 1969), 84–100. 67. New Links between Regge-Pole Theory and Current Algebra, Comments on Nuclear and Particle Physics, 1969. 68. Quantization Conditions for Regge Intercepts and Hadron Masses (with M.Ademollo and G. Veneziano), Phys. Rev. Lett. 22, 83 (1969). 69. Algebraic Realizations of Chiral Symmetry, Phys. Rev. 177, 2604 (1969). 70. Algebraic Structure of Superconvergence Relations, Phys. Rev. Lett. 22, 1023 (1969). 71. Feynman Rules for Any Spin III, Phys. Rev. 181, 1893 (1969). 72. From Chiral Dynamics to Chiral Algebra, Contemporary Physics 1, (International Atomic Energy Agency,Vienna, 1969), 261–269. 73. Remarks on Gravitational Radiation, Contemporary Physics 1, (International Atomic Energy Agency, Vienna, 1969). 74. Survival and the Bomb, Science 166, 1131 (1969). 75. Summing Soft Pions, Phys. Rev. D2, 674 (1970). 76. Direct Determination of the Metric from Observed Redshifts and Distances, Astrophys. J. 161, L233 (1970). 77. Ultimate Temperature and the Early Universe (with K. Huang), Phys. Rev. Lett. 25, 895 (1970). 78. Reply to “On Summing Soft Pions”, Phys. Rev. D2, 3085 (1970). 79. Dynamic and Algebraic Symmetries, in Lectures on Elementary Particles and Quantum Field Theory, 1970 Brandeis Univ. Summer Institute on Theor. Physics (M.I.T. Press, Cambridge, MA, 1970), pp. 285–393. 80. Chiral Loops (with I.S. Gerstein, R. Jackiw and B. W. Lee), Phys. Rev. D3, 2486 (1971). 81. Entropy Generation and the Survival of Protogalaxies in an Expanding Universe, Astrophys. J. 168, 175 (1971). 82. Summing Soft Pions II, Statistical Approach to Unitarity Damping, Phys. Rev. D4, 2992 (1971). 83. Physical Processes in a Convergent Theory of the Weak and Electro- magnetic Interactions, Phys. Rev. Lett. 27, 1688 (1971). 84. Exponentiation and Sum Rules, Phys. Lett. 37B, 494 (1971). 85. Multiparticle Sum Rules, Phys. Rev. D5, 900 (1972). 86. Effects of a Neutral Intermediate Boson in Semileptonic Processes, Phys. Rev. D5, 1412 (1972). 87. Mixing Angle in Renormalizable Theories of the Weak and Electro- magnetic Interactions, Phys. Rev. D5, 1962 (1972). 88. Weak-Interaction Corrections to the Muon Magnetic Moment and to Muonic-Atom Energy Levels, Phys. Rev. D5, 2396 (1972). 89. Electromagnetic and Weak Masses, Phys. Rev. Lett. 29, 388 (19 72). 90. Approximate Symmetries and Pseudo-Goldstone Bosons, Phys. Rev. Lett. 29, 1698 (1972). 91. Theory of Weak and Electromagnetic Interactions, in Fundamental Interactions in Physics and Astrophysics, ed. by G. Iverson et al. (Plenum Press, New York, 1973), p. 157. 92. Book Review of Magic without Magic, Science 180 , 176 (1973). 93. Where We Are Now, Science 180, 276 (1973).

Steven Weinberg 94. 95. 96. 97.

98. 99. 100. 101. 102.

103. 104. 105. 106. 107. 108. 109. 110. 111. 112. 113.

114. 115. 116. 117.

118. 119. 120. 121. 122. 123.

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General Theory of Broken Local Symmetries, Phys. Rev. D7, 106 8 (1973). Perturbative Calculations of Symmetry Breaking, Phys. Rev. D7, 2887 (1973). Current Algebra and Gauge Theories I, Phys. Rev. D8, 605 (197 3). Non-Abelian Gauge Theories of the Strong Interactions, Phys. Rev. Lett. 31, 494 (1973); reprinted in Gauge Invariance, ed. by T. P. Cheng & L-F Li (Amer. Assn. Physics Teachers, 1990). New Approach to the Renormalization Group, Phys. Rev. D8, 3497, (1973). Current Algebra and Gauge Theories II: Non-Abelian Gluons, Phys. Rev. D8, 4482 (1973). Unified Theories of Weak and Electromagnetic Interactions, Journal de Physique, Comptes-Rendus des Colloques No. 1 (1973). Views on Broken Symmetry, Annals of the N.Y. Academy of Sciences 229, 36 (1974). Unified Theories of Elementary Particle Interactions, Scientific American 231, 50 (1974); reprinted in Gauge Invariance, ed. by T. P. Cheng & L-F Li (Amer. Assn Physics Teachers, 1990). Gauge and Global Symmetries at High Temperature, Phys. Rev. D9 , 3357 (1974). Reflections of a Working Scientist, Daedalus, Summer 1974, p. 33; reprinted in Czech translation in Cesk. C. Fys. 26, (1), 65 (1976). Recent Progress in Gauge Theories of the Weak, Electromagnetic, and Strong Interactions, Rev. Mod. Phys. 46, 255 (1974). Hierarchy of Interactions in Unified Gauge Theories (with H. Georgi and H. Quinn), Phys. Rev. Lett. 33, 451 (1974). The Current State of Particle Physics, New Scientist, Vol. 65, February 1975, p. 497. Light as a Fundamental Particle, Physics Today 28, 32 (1975). The U(1) Problem, Phys. Rev. D11, 3583 (1975). Exact Spectral Function Sum Rules (with C. Bernard, A. Duncan, and J. LoSecco) Phys. Rev. D12, 792 (1975). Implications of Dynamical Symmetry Breaking, Phys. Rev. D13, 974 (1976). Problems in Gauge Field Theories, in Proceedings of the XVII International Conference on High Energy Nuclear Physics (Rutherford Laboratory, 1974), p. III-59. Astrophysical Implications of the New Theories of Weak Interactions, in Proceedings of the Seventh Texas Symposium on Relativistic Astrophysics (Annals of the N.Y. Academy of Sciences, Vol. 262 (1975), p. 409. Gauge Symmetry Breaking, in Proceedings of the Conference on Gauge Theories in Modern Field Theory (M.I.T. Press, 1976). Smearing Method in the Quark Model (with E. C. Poggio and H.R. Quinn), Phys. Rev. D13, 1958 (1976). Mass of the Higgs Boson, Phys. Rev. Lett. 36, 294 (1976). The Forces of Nature, in Bulletin of the American Academy of Arts and Sciences 29, No. 4, 13 (1976). [Reprinted in Spanish translation in Plural, 1976; reprinted in American Scientist 65, 171 (1977)]. Symmetry Breaking and Scalar Bosons (with E. Gildener), Phys. Rev. D13, 3333 (1976). Ambiguous Solutions of Supersymmetric Theories, Phys. Lett. 62B, 111 (1976). Apparent Luminosities in a Locally Inhomogeneous Universe, Astrophys. J. 208, L1–L3 (1976). Is Nature Simple?, in The Nature of the Physical Universe — 1976 Nobel Conference, Gustavus Adolphus College, St. Peter, Minn. (John Wiley & Sons, N.Y.), pp. 47–62. Mass Differences of Charmed Hadrons (with Kenneth Lane), Phys. Rev. Lett. 37, 717 (1976). Gauge Theory of CP Nonconservation, Phys. Rev. Lett. 37, 657 (1976).

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124. Critical Phenomena for Field Theorists (1976 Erice Lecture Notes), in Understanding the Fundamental Constituents of Matter, ed. A. Zichichi (Plenum Press, N.Y., 1978) pp. 1–44. 125. Natural Conservation Laws for Neutral Currents (with S. L. Glashow), Phys. Rev. D15, 1958 (1977). 126. Mechanism for Nonconservation of Muon Number (with J. D. Bjorken), Phys. Rev. Lett. 38, 622 (1977). 127. The Future of Unified Gauge Theories, Physics Today 30, 42 (1977). 128. SU(3) × U(1) Gauge Theory of the Weak and Electromagnetic Interactions (with B. W. Lee), Phys. Rev. Lett. 38, 1237 (1977). 129. Cosmological Lower Bound on Heavy-Neutrino Masses (with B.W. Lee), Phys. Rev. Lett. 39, 165 (1977); reprinted in Particle Physics and Cosmology: Sources and Comments, ed. by M.Srednicki (North Holland, Amsterdam, 1990), p. 183. 130. The Search for Unity: Notes for a History of Quantum Field Theory, Daedalus, Fall 1977, Vol.II. 131. The decay µ → eγ in Models with Neutral Heavy Leptons (with J. D. Bjorken and K.Lane), Phys. Rev. D16, 1474 (1977). 132. The Problem of Mass, contribution to A Festschrift for I. I. Rabi, Transactions of the N. Y. Academy of Sciences 38, 185 (1977). 133. Jets from Quantum Chromodynamics (with G. Sterman), Phys. Rev. Lett. 39, 1416 (1977). 134. Unified Gauge Theories, in Proceedings of the VIIth International Conference on High Energy Physics and Nuclear Structure, Zurich, 1977 (Birkhauser Verlag, Basel, 1977) 339. 135. Gauge Theories of Weak, Electromagnetic and Strong Interactions, in Proceedings of the 1977 International Symposium on Lepton and Photon Interactions at High Energies, Hamburg, 1977 (DESY, 1977) 619. 136. Neutral Currents in Expanded Gauge Theories (with H. Georgi) , Phys. Rev. D17, 275 (1978). 137. A New Light Boson?, Phys. Rev. Lett. 40, 223 (1978). 138. Statement at the Joint Hearing before the Subcommittee on Science, Technology, and Space of the Senate Committee on Commerce, Science, and Transportation and the Subcommittee on Science, Research, and Technology of the House Committee on Science and Technology on Oversight of the National Science and Technology Policy, Organization, and Priorities Act of 1976, February 14, 1978 (U. S. Government Printing Office, Washington, 1978) 86. 139. Summary Talk, Ben Lee Memorial International Conference, Fermilab, October 1977, in Unification of Elementary Forces and Gauge Theories, ed. D. Cline and F. E. Mills (Harwood Academic Publishers Ltd., London, 1978) 727. 140. Ultraviolet Divergences in Quantum Theories of Gravitation, contribution to the Einstein Centenary Volume, General Relativity, ed. S. W. Hawking and W. Israel (Cambridge University Press, 1979) 790. 141. Keynote Address, talk given at the International Conference on Neutrino Physics and Neutrino Astrophysics, Purdue University, 1978, in Neutrinos ‘78, ed. E. C. Fowler (Purdue, 1978). 142. Weak Interactions, rapporteur’s talk, in Proceedings of the XIX International Conference on High Energy Physics, ed. S. Homma, M. Kawaguchi and H. Miyazawa (Physical Society of Japan, Tokyo, 1979) 907. 143. Implications of Dynamical Symmetry Breaking: An Addendum, Phys. Rev. D19, 1277 (1979). 144. Cosmological Production of Baryons, Phys. Rev. Lett. 42, 850 (1979). 145. Phenomenological Lagrangians, Physica 96A, 327 (1979), and in Themes in Contemporary Physics, ed. S. Deser et al. (North Holland, Amsterdam, 1979). 146. Gauge Hierarchies, Phys. Lett. 82B, 387 (1979).

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147. Mechanisms for Cosmological Baryon Productions (with D. V. Nanopoulos), Phys. Rev. D20, 2484 (1979). 148. Einstein and Spacetime: Then and Now, Bull. Am. Acad. Arts and Sciences 33 , 35 (1979); Proceedings of the American Philosophical Society 125, 20 (1981). 149. Baryon and Lepton Nonconserving Processes, Phys. Rev. Lett. 43, 1566 (1979). 150. Grand Unification, in To Fulfill a Vision — Jerusalem Einstein Centennial Symposium on Gauge Theories and Unification of Physics Forces, ed. by Y. Ne’eman (Addison-Wesley, Reading, MA 1981). 151. Beyond the First Three Minutes, closing talk at the Conference on the Universe at Large Redshifts, Copenhagen, June 1979, Physica Scripta 21, 773 (1980). 152. Effective Gauge Theories, Phys. Lett. 91B, 51 (1980). 153. Conceptual Foundations of the Unified Theory of Weak and Electromagnetic Interactions (Nobel address, December 1979), in Les Prix Nobel 1979 (Nobel Foundation, Stockholm, 1980), pp. 105–123; reprinted in Rev. Mod. Phys. 52, 515 (1980) and Science 210, 1212 (1980). 154. Varieties of Baryon and Lepton Nonconservation, Phys. Rev. D22 , 1694 (1980). 155. Expectations for Baryon and Lepton Nonconservation, in First Workshop on Grand Unification (Math-Sci Press, Brookline, MA, 1980) pp. 347–362. 156. Limits on Massless Particles (with E. Witten), Phys. Lett. 96B, 59 (1980). 157. Color and Electroweak Forces as a Source of Quark and Lepton Masses, Physics Letters 102B, 401 (1981). 158. “Decoupling” Condition for Composite Particles (with J. Preskill), Phys. Rev. D24, 1059 (1981). 159. The Decay of the Proton, Sci. Am. 244, 64 (June 1981); reprinted in Polish in Postepy Fizyiki, Tom 34, Zeszyt (Poland) 1983. 160. Conference Summary, in Second Workshop on Grand Unification (Birkhauser, Boston, 1981) pp. 297–316. 161. Supersymmetry at Ordinary Energies: Masses and Conservation Laws, Phys. Rev. D26, 287 (1982). 162. Why the Renormalization Group is a Good Thing, in Asymptotic Realms of Physics — Essays in Honor of Francis Low, ed. by A. H. Guth, K Huang, and R. J. Jaffe (MIT Press, Cambridge, MA 1983). 163. Elementary Particle Physics in the Very Early Universe, in Astrophysical Cosmology — Proceedings of the Study Week on Cosmology and Fundamental Physics, Vatican City, Sept. 38–Oct. 1, 1981, ed. by H. A. Br¨ uck, G. V. Coyne, and M. S. Longair (Pontificiae Academiae Scientiarum Scripta Varia, Vatican City, 1982), p. 503. 164. The Ultimate Structure of Matter, in Proceedings of the Celebration of the 50th Anniversary of the Lawrence Berkeley Laboratory, LBL–13613 (1981); in A Passion for Physics – Essays in Honor of Geoffrey Chew (World Scientific, Singapore, 1985) 114; 165. Opportunities for Particle Physics: Solar Neutrinos and Superstrings, Internat. J. of Mod. Phys. A (2,2) (1987), 301–317. 166. Cosmological Constraints on the Scale of Supersymmetry Breaking, Phys. Rev. Lett. 48, 1303 (1982). 167. Does Gravitation Remove the Ambiguity Among Supersymmetric Vacua?, Phys. Rev. Lett. 48, 1776 (1982). 168. Where is Supersymmetry Broken?, in Third Workshop on Grand Unification (Birkhauser, Boston, 1982). 169. Supersymmetry at Ordinary Energies II: R Invariance, Anomalies, and Goldstone Bosons (with G. Farrar), Phys. Rev. D27, 2732 (1983).

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170. Upper Bound on Gauge Fermion Masses, Phys. Rev. Lett. 50, 387 (1983). 171. Supergravity as the Messenger of Supersymmetry Breaking (with L. Hall and J. Lykken.), Phys. Rev. D27, 2359 (1983). 172. Charges from Extra Dimensions, Phys. Lett. 125B, 265 (1983). 173. Calculation of Gauge Couplings and Compact Circumferences from Self- Consistent Dimensional Reduction (with P. Candelas), Nuclear Physics, B237, 397 (1983). 174. Energy scales, in the Proceedings of the XVIII Solvay Conference on Physics, Physics Reports 104, Nos. 2–4, 107 (1984). 175. Overview of Theoretical Prospects for Understanding the Values of Fundamental Constants, in The Constants of Physics: Proceedings of a Royal Society Discussion Meeting, held on 25 and 26 May 1983 (London, The Royal Society, 1983), p 39, and in Phil. Trans. Roy. Soc. A310, 249 (1983). 176. Calculation of Fine Structure Constants, in Fourth Workshop on Grand Unification (Birkhauser, Boston, 1983), 380; in the Proceedings of the 1983 Shelter Island II Conference on Quantum Field Theory and the Fundamental Problems of Physics, ed. by Roman Jackiw, Nicola N. Khuri, Steven Weinberg, and Edward Witten (MIT Press, Cambridge MA., 1985), 24. 177. Quasi-Riemannian Theories of Gravitation in More than Four Dimensions, Phys. Lett. 138B, 47 (1984). 178. Causality, Antiparticles, and the Spin - Statistics Connection in Higher Dimensions, Phys. Lett., B143, 97 (1984). 179. Generalized Theories of Gravity and Supergravity in Higher Dimensions, in Fifth Workshop on Grand Unification (World Scientific, Singapore, 1984), 508. 180. Physics in Higher Dimensions, in Inner Space/Outer Space — The Interface between Cosmology and Particle Physics ed.by Edward W. Kolb, Michael S. Turner, David Lindley, Keith Olive and David Seckel, (Univ. of Chicago Press, 1986), 571–582. 181. An Alternative to General Relativity, in From SU(3) to Gravity: Festschrift in Honor of Yuval Ne’eman (Cambridge U. Press, Cambridge, 1985), p. 441. 182. Unification through Higher Dimensions, in Proceedings of the Santa Fe Meeting, ed. by T. Goldman and M.N. Nieto (World Scientific, Singapore, 1984), 110. 183. Coupling Constants and Vertex Functions in String Theories, Phys. Lett. B156(5), 309–314 (1985). 184. Strings With No Strings, in Proceedings of the Sixth Workshop on Grand Unification, ed. by Serge Rudaz, Thomas F. Walsh, (World Scientific, 1986), 162–164. 185. Origins, talk at the inauguration of the Instituto Astrofisica de Canarias, Science 230, 15–18 (1986). 186. Particle Physics: Past and Future, Intl. Jour. of Mod. Physics, Vol. 1, (1), (1986), 135–145; Proc. of Oregon Meeting, ed. by R. C. Hwa, (World Scientific, 1986), 186–203; reprinted (Polish translation) Postepy Fizyki Vol. 38 (5) (1987) 413–423. 187. Radiative Corrections in String Theories, in Proceedings of the Oregon Meeting, ed. by R. C. Hwa, (World Scientific, 1986) 850–860. 188. The Weak Interactions from Now On, in Physics Today (August 1986), 35–37. 189. Superconductivity for Particular Theorists, in Fields, Symmetries, Strings — Festschrift for Yochiro Nambu, Prog. Theor. Phys. Suppl. No. 86 (1986) 43–53. 190. Particles, Fields, and Now Strings, in The Lesson of Quantum Theory, Proceedings of the Niels Bohr Centenary Symposium, 1985, ed. by J. de Boer, E. Dal, and O. Ulfbeck (Elsevier Science Publishers, 1986) 227–239.

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191. Elementary Differential Geometry From a Generalized Standpoint, in Physics in Higher Dimensions, Vol. 2 of Jerusalem Winter School for Theoretical Physics, 27 Dec 1984 – 4 Jan 1985, ed. by T. Piran and S. Weinberg, (World Scientific Publishing Co., Singapore, 1986) 159–203. 192. The Search for Simplicity at High Energy, in Mishkenot Sha’ananim Newsletter No. 5 (Jerusalem 1986), 1–2. 193. Talk at a Symposium on Mathematics — The Unifying Thread in Science, in Notices of The American Mathematical Society 33, (1986) 725. 194. Summary and Outlook, in Proceedings of the XXIII International Conference on High Energy Physics, 16–13 July 1986, Berkeley, California ed. by S. C. Loken (World Scientific Publishing Co., Singapore, 1987), Vol. 1, pp 281–282; reprinted in Int. J. Mod. Phys. A, 2 (1987) pp 301–317; excerpted in Solar Neutrinos — The First Thirty Years, ed. by J. N. Bahcall et al. (Addison-Wesley, New York, 1994). 195. Newtonianism and Today’s Physics, in Three Hundred Years of Gravitation ed. by S. W. Hawking and W. Israel (Cambridge University Press, 1987) pp 2–16. [Excerpted in Metaphysical Review 2, 1–3 (1996).] 196. Cancellation of One-Loop Divergences in SO(8192) String Theory, Phys. Lett. B187 No. (3,4) (1987) pp 278–282. 197. Covariant Path-integral Approach to String Theory, in Strings and Superstrings, ed. by T. Piran and S. Weinberg, proceedings of the Third Jerusalem Winter School of Theoretical Physics, (World Scientific, 1988), pp 142–288. 198. Science as a Liberal Art, commencement address at Washington College, May 19, 1985, in Societal Issues, Scientific Viewpoint, ed. by M. Strom (American Institute of Physics, New York, 1987) 202–203. 199. Anthropic Bound on the Cosmological Constant, Phys. Rev. Lett. 59, 2607 (1987). 200. Newtonianism, Reductionism and the Art of Congressional Testimony, Nature 330, No. 6147, pp. 433–437 (1987); reprinted in Emergence: Contemporary Readings in Philosophy and Science, eds. M. Bedau and P. Humphreys (M.I.T Press, 2008): 345–357. 201. Testimony before the Committee on Science, Space, and Technology of the U.S. House of Representatives, April 7, 1987, in Superconducting Super Collider —Hearings [No.80], (U.S. Government Printing Office, Washington, 1988), pp 243–254; reprinted in Appraising the Ring: Statements in Support of the Superconducting Super Collider, ed. by L. M. Lederman and C. Quigg (Universities Research Association, 1988), pp 155–161. 202. Newton’s Dream, Queen’s Quarterly 95, 96 (1988). 203. The Cosmological Constant Problem, Rev. Mod. Phys. 61, 1–23 (1989). 204. Particle States as Realizations (Linear or Nonlinear) of Spacetime Symmetries, in the Proceedings of the International Symposium on Spacetime Symmetries, ed by Y.S. Kim and W. W. Zachary (North-Holland, Amsterdam, 1989), pp 67–75. 205. Anhydrous Zucchini, in But the Crackling is Superb: An Anthology on Food and Drink by Fellows and Foreign Members of the Royal Society, ed. by N. and G. Kurti (Adam Hilger, Bristol and Philadelphia, 1988), p.220–221; reprinted in Austin Hill Country Celebrity Cookbook, S. Liermann and N. Reid, eds. (Austin Parks Foundation, Austin, Texas, 1996): 136. 206. Precision Tests of Quantum Mechanics, Phys. Rev. Lett. 62, 485–488(1989); reprinted in The Oskar Klein Memorial Lectures, Vol. 1, ed. by G. Ekspong (World Scientific, Singapore, 1990) 207. Testing Quantum Mechanics, Ann. Phys. (N.Y.) 194, 336 (1989). 208. Reply to a Comment by A. Peres, Phys. Rev. Lett. 63, 1115 (1989)

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209. Larger Higgs-Exchange Terms in the Neutron Electric Dipole Moment, Phys. Rev. Lett. 63, 2333–2335 (1989). 210. Tracing the Mechanism of Electroweak Symmetry Breaking, Mod. Phys. Lett. A Vol. 5, No. 19, 1457–1465 (1990). 211. Particle Physics and Cosmology: Beyond the Standard Models, in The Oskar Klein Memorial Lectures, Vol. 1, ed. by G. Ekspong (World Scientific, Singapore, 1991). 212. Unitarity Constraints on CP Nonconservation in Higgs- boson Exchange Phys. Rev. D 42, 860–866 (1990) 213. Mended Symmetries, Phys. Rev. Lett. 65 (10), 1177–1180 (1990). 214. Why Do Quarks Behave Like Bare Dirac Particles?, Phys. Rev. Lett. 65 (10), 1181–1185 (1990). 215. Nuclear Forces from Chiral Lagrangians, Phys. Lett. B251 (2), 288–292 (1990). 216. Confronting O’Brien, in Living Philosophies — The Reflections of Some Eminent Men and Women of our Time, ed. by Clifton Fadiman (Doubleday, New York, 1990), pp. 264–270. 217. Effective Chiral Lagrangians for Nucleon–Pion Interactions and Nuclear Forces, Nucl. Phys. B363 (1), 3–18 (1991). 218. Science at the SSC, in Proceedings of the Atlanta Conference on the SSC, November 1990, (Superconducting Supercollider Laboratory, Dallas, Texas) pp 8–12. 219. Using Quark and Lepton Masses to Guess the Scalar Spectrum, in M.A.B. B´eg Memorial Volume, ed. by A. Ali & P. Hoodbhoy (World Scientific, Singapore, 1991), pp 1–12 220. Unbreaking Symmetries, to be published in a festschrift for Abdus Salam. 221. Axial Vector Coupling of the Quark, Phys. Rev. Lett. 67, 3473–3474 (1991). 222. Three-Body Interactions Among Nucleons and Pions, Phys. Lett. B295, 114–121 (1992). 223. Flavor changing scalar interaction (with Lawrence Hall), Phys. Rev. D48, 979–983 (1993). 224. Speech of Acceptance on the award of a Doctoral Degree “Honoris Causa” at the University of Salamanca, in “Group Theoretical Methods in Physics” (Editorial Siemat, Madrid, 1993), pp 509– 511. 225. Conference Summary, in Proceedings of the XXVI International Conference on High Energy Physics (American Institute of Physics, New York, 1993), pp 346–363. 226. Ethical Research: Principles and Practices in Proceedings of the Forum on “Ethics, Values and the Promise of Science,” (Sigma Xi, The Scientific Society, February 1993), 28–30. 227. Down in Ellis County, Discovery 13, 1–12 (1993). 228. Creativity in Science, in The Creative Process, ed. by L. Gustaffson, S. Howard, and L. Niklasson (Swedish Ministry of Eduction and Science, Stockholm, 1993). 229. Effective Action and Renormalization Group Flow of Anisotropic Superconductors, Nucl. Phys. B413, 567– 578 (1994). 230. General Effective Actions (with E. d’Hoker), Phys. Rev. D50, R6050–R6053 (1994). 231. Response to Steve Fuller, Social Studies of Science 24, 745–750 (1994). 232. A ‘Zing’ of Truth, The Times Higher Education Supplement, January 6, 1995. 233. Life in the Universe, Scientific American, October 1994, 22–27; reprinted in Life in the Universe (W. H. Freeman, New York, 1995), 1–9; reprinted as ”What Can We Know About the Universe?” in Scanning the Future – 20 Eminent Thinkers on the World of Tomorrow, Y. Blumenfeld, ed. (Thames & Hudson, London, 1999): 294–303; excerpted in Scientific American, July 2012, p. 67. 234. Strong Interactions at Low Energies, in Chiral Dynamics: Theory and Experiment — Proceedings of the Workshop Held at MIT, Cambridge, MA, 25–29 July, 1994, ed. by A. M. Bernstein and B. R. Holstein (Springer-Verlag, Berlin, 1995), 3–13.

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235. The Methods of Science ... And Those by Which We Live, remarks at the symposium ”What Do the Natural Sciences Know and How Do They Know It?” at the fifth national conference of the National Asssociation of Scholars, Cambridge, MA, November 11, 1994, in Academic Questions 8, 8–13 (1995). 236. Searching for Unity — The Forces of Physics, in Scientific American: Triumph of Discovery (Henry Holt, New York, 1995). 237. Nature Itself, in Twentieth Century Physics (Institute of Physics Publishing, Bristol and Philadelphia, 1995), 2033–2040. 238. Reductionism Redux, The New York Review of Books, October 5, 1995, 39–42. 239. Remarks Made at the Award of an Honorary Doctoral Degree by the University of Padua, December 7, 1992, in L’Anno Galileiano (Edizioni LINT, Trieste, 1995): Volume I, 129–130. 240. The Heritage of Galileo’s Thought in Modern Physics and Cosmology, in L’Anno Galileiano (Edizioni LINT, Trieste, 1995): Volume IV, 381–386. 241. Night Thoughts of a Quantum Physicist, Bull. Amer. Acad. Arts & Sciences 69, No. 3, 51 (1995). 242. Are Nonrenormalizable Gauge Theories Renormalizable? (with J. Gomis), Nuclear Physics B 469, 475–487 (1996). 243. Electroweak Reminiscences, in History of Original Ideas and Basic Discoveries in Particle Physics, eds. H. B. Newman and T. Ypsilantis (Plenum Press, New York, 1996), 27–36. 244. Sokal’s Hoax, The New York Review of Books XLIII, No. 13, 11–15 (August 8, 1996); reprinted in The Sokal Hoax, University of Nebraska Press, 2000; to be reprinted in The Science Wars (Korean translation version), ed. Keith Parsons (Humanist Publishing Group). 245. Science & Sokal’s Hoax: A Reply, New York Review of Books XLIII, No. 15, 55–56; reprinted in The Sokal Hoax, University of Nebraska Press, 2000. 246. At Last — What Sort of World is This?, Forbes ASAP, December 2, 1996, pp. 191 & 208; reprinted in Forbes ASAP Big Issues (Wiley, New York, 2001). 247. What is an Elementary Particle? The Beamline 27, No. 1, 17–21 (Spring 1997). 248. Theories of the Cosmological Constant, in Critical Dialogues in Cosmology, ed. N. Turok (World Scientific, Singapore, 1997): 195–203. 249. Likely Values of the Cosmological Constant, with H. Martel and P. Shapiro, Ap. J. 492, 29–40 (1998). 250. What is Quantum Field Theory, and What Did We Think it Is?, hep-th/9702027, talk presented at the conference “Historical and Philosophical Reflections on the Foundations of Quantum Field Theory,” at Boston University, March 1996, in Conceptual Foundations of Quantum Field Theory, T. Y. Cao, ed. (Cambridge University Press, Cambridge, 1999): 241–251, 259–263. 251. The First Elementary Particle, Nature 386, 213 (1997); reprinted in Spanish in El Pais, Madrid, April 9, 1997, 30–31. 252. La Ciencia y sus Problemas en el Fin del Siglo (translated by Aurelio Asianin), Vuelta (Mexico City) XXI, No. 247, June 1997, 17. 253. Effective Field Theories in the Large N Limit, Physical Review D 56, 2303 (1997). 254. Before the Big Bang, The New York Review of Books XLIV, Number 10, 16–20 (June 12, 1997); reprinted in part in Lettre International, Volume 38 III. Vj./97, p 74.. 255. Reflections on Zionism, in “Zionism at 100 — A Symposium”: 22, The New Republic 217, issues 4312/4313, September 8/15, 1997. 256. Eyewitness 1967, George, October 1997: 70 (reprinted in One Hundred Reasons to be a Scientist, ed. K. R. Sreenivasan (International Centre for Theoretical Physics, Trieste, 2004).

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257. Changing Attitudes and the Standard Model, in The Rise of the Standard Model, L. Hoddeson, L. Brown, M. Riordan, and M. Dresden, eds. (Cambridge University Press, Cambridge, 1997): 36–44. 258. Vor dem Urknall, NZZ Folio Nr. 12, December 1997, 6– 15. 259. Physics and History, Daedalus 127, 151–164 (Winter 1998); reprinted in Science and Culture, P. Galison, S. R. Graubard, and E. Mendelsohn (Transaction Press, New Brunswick, NJ, 2001): 151–164; reprinted in part in in The One Culture?, ed. by J. A. Labinger and H. Collins (University of Chicago Press, Chicago, 2001). in The One Culture?, ed. by J. A. Labinger and H. Collins (University of Chicago Press, Chicago, 2001); reprinted in the 5oth anniversary issue, Daedalus 134 No. 4, 31–39 (2005). 260. Non-renormalization Theorems in Non-Renormalizable Theories, hep-th/9803099, Physical Review Letters 80, 3702 (1998). 261. La scienza e i suoi nemici, Lettera Internazionale 54, 26–27 (October–December, 1997). 262. Feynman on God and his granny; review of The Meaning of It All, by Richard Feynman, in The Times Higher Education Supplement, No. 1334, 23 (May 29, 1998). 263. The Non-Revolution of T. S. Kuhn, The New York Review of Books XLV, Number 15, 48–52 (October 8,1998); reprinted as Wissensrevolutionen: Paradigmenwechsel - Zur Wissenschaftsgeschichte Thomas Kuhns, Lettre Internationale Nr. 44, 64–67 (1998); reprinted as La revoluci´ on que nunca ocurri´o, Este Pais no. 94, 2–9, January 1999; reprinted as Une Vision Corrosive du Progress Scientifique La Recherche No. 318, 72–80 (March 1999); reprinted in part in The One Culture?, ed. by J. A. Labinger and H. Collins (University of Chicago Press, Chicago, 2001). 264. T. S. Kuhn’s Non-Revolution: An Exchange. The New York Review of Books, February 18, 1999, p. 49. 265. The Grand Reduction: Physics in the Twentieth Century, in The Oxford History of the Twentieth Century, M. Howard and W. R Louis, eds. (Oxford Univerity Press, Oxford, 1998): 22–34; reprinted in Hungarian as ”A nagy reduckci´o: a huszadik sz´azad fizik´aja,” in Term´eszet Vil´aga, January 2005, pp. 2–8. 266. A Response to Professor W´ ojcicki, Foundations of Science 1, 79–81 (1998). 267. A Certain Approximation, Forbes ASAP, November 30. 1998, pp. 147 and 178–179. 268. A Designer Universe?, The New York Review of Books XLVI, Number 16, 46–48 (October 21, 1999); reprinted in German in Bild der Wissenschaft, December 1999, pp 48–49; reprinted in Spanish in Este Pais – - Tendencias y Opiniones, number 105 (December 1999): 50–54; ; reprinted in German in Das Magazin, Nr. 16, April 22–28, 2000: 33-36; reprinted in Spanish in Revista de Occidente, No. 230/231, July–August 2000: 158-171; reprinted in Hungarian in Term´eszet Vil´ aga, January 2002; reprinted in Slovak in Zoˇsity humanistov, No. 29 (January 2000) reprinted in The Best American Science Writing 2000, J. Gleick, ed. (The Ecco Press, HarperCollins Publishers Inc., New York, 2000); The Best American Essays 2000 A. Lightman, ed. (Houghton Miflin Company, Boston, 2000); reprinted in F. D. White and S. J. Billings, The Well-Crafted Argument (Houghton-Miflin, Boston, 2002); reprinted in part in T. Edis, Science and Nonbelief (Greenwood Press, Westport, CT, 2006); reprinted in Spanish in el esc´eptico La revista para el fomento de la raz´on y la ciencia, No. 21, pp. 20-29 (January-April 2006); reprinted in Fields of Reading, Motives for Writing, 8th edition, ed. N. R. Comley et al. (Bedford/St. Martins, Boston, 2007): 778-786; reprinted in Polish on the web site Racjonalista, 3/10/08. 269. A Unified Physics by 2050?, Scientific American Millenium Special Issue, 281, No. 6, December 1999, pp 68–75; reprinted in Science and Religion: Are They Compatible?”. ed. P. Kurtz (Prometheus Books, Amherst, N.Y., 2003): 31–40..

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270. A Theory of Everything, in Predictions — 30 Great Minds on the Future, S. Griffiths, ed. (Oxford University Press, Oxford, 1999): 307–308 271. Five and a Half Utopias, Atlantic Monthly 285, No. 1, January 2000, pp 107–114; reprinted in Latvian in Rigas Laiks, May, 2000, pp. 28- -35; reprinted in Chinese in Science and Culture Review 1, No. 5 (October 2004), 83-92. 272. The Laws of Nature, in Useful Knowledge — The American Philosophical Society Millenium Program, A. Bearn, ed. (American Philosophical Society, Philadelphia, 1999): 3–8. 273. A Priori Probability Distribution of the Cosmological Constant, Phys. Rev. D 61, 103505-1 (2000). 274. Why Science isn’t a Social Construct, review of The Social Construction of What? by Ian Hacking, The Times Literary Supplement, No. 5055 (February 18, 2000): 8. 275. Will We Have a Final Theory of Everything?, in Time, 155, 86 (April 10, 2000). 276. The Cosmological Constant Problems, in Sources and Detection of Dark Matter and Dark Energy in the Universe — Fourth International Symposium, D. B. Cline, ed. (Springer, Berlin, 2001), 18–26. 277. Curvature Dependence of the Peaks in the Cosmic Microwave Background Distribution, Phys. Rev. D62, 127302 (2000). 278. Elke Noot op de Juiste Plaats, in Het boek van de schoonheit en de troost, ed. G. Wallinga (Uitgeverij Contact, Amsterdam, 2000): 73–82 279. ”Conference Summary,” in Relativistic Astrophysics, 20th Texas Symposium, Austin, Texas, 10–15 December, 2000 (American Institute of Physics, Melville, NY, 2001): 893–907. 280. ”Can Science Explain Everything? Can Science Explain Anything?,” in New York Review of Books, XLVIII, No. 9, 47–50 (May 31, 2001) ; reprinted in The Australian Review (2001); reprinted in Portuguese in Folha da S. Paolo (2001); reprinted in French in La Recherche (2001); reprinted in The Best American Science Writing 2002, eds. M. Ridley and A. Lightman (HarperCollins, 2002); reprinted in The Norton Reader (W. W. Norton & Co., New York, December 2003); reprinted in Explanations — Styles of Explanation in Science, ed. John Cornwell (Oxford University Press, 2004): 23–38; reprinted in Hungarian in Akadeemia 176, No. 8, 1734–1749 (2005). 281. ”Peace at Last?,” in The One Culture?, ed. by J. A. Labinger and H. Collins (University of Chicago Press, Chicago, 2001): 238–240. 282. ”Historiographical Uses of Scientific Knowledge,” in The One Culture?, ed. by J. A. Labinger and H. Collins (University of Chicago Press, Chicago, 2001): 289-290. 283. “Die endg¨ ultige Theorie vor Augen,” in UNESCO Kurier May, 2001, p. 28. 284. “The Future of Science, and of the Universe,” in The New York Review of Books XLVIII, No. 18 (November 15, 2001): 58–63; reprinted in Ornicar; reprinted in German in Lettre International, Summer 2008, pp. 219-222; reprinted in Latvian in Rigas Laiks, November 2009, pp. 27-33. 285. Fluctuations in the Cosmic Microwave Background I: Form Factors and their Calculation in Synchronous Gauge, astro-ph/0103279, Phys. Rev. D64, 123511/1–16. 286. Fluctuations in the Cosmic Microwave Background II: C` at Large and Small `, astro-ph/0103281, Phys. Rev. D64, 123512/1–8. 287. “Importance of Discovering the Nature of Dark Energy” in Contributions from the Snowmass 2001 Workshop on the Future of Particle Physics, ed. Eric Linder (Lawrence Berkeley Laboratory, 2001). 288. “The Energy of Empty Space,” in The Times Higher Education Supplement, December 21, 2001, p. VI.

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289. “Afterword: How Great Equations Survive,” in It Must be Beautiful: Great Equations of Modern Science, G. Farmelo, ed. (Granta Books, London, 2002). 290. “The Truth About Missile Defense,” in The New York Review of Books XLIX, No. 2, 41–47 (February 14, 2002); reprinted in At Issue – Missile Defense (Thomson–Gale, Fall 2002); as course material by the U.S. Naval War College (2002); in The Best American Science and Nature Writing 2003, Richard Dawkins, ed. (Houghton-Mifflin Co., Boston, 2003): 271–286. 291. “The Growing Nuclear Danger,” in The New York Review of Books (XLIX, No. 12, 18–20 (July 18, 2002). 292. Talk presented at the acceptance of the 2002 Humanist of the Year Award, in The Humanist, Vol. 62, No. 5, 20–21 (September/October, 2002). 293. Cosmological Fluctuations of Small Wavelength, astro-ph/0207375, Astrophys. J. 581, 810–816 (2002). 294. ”Is the Universe a Computer?,” review of A New Kind of Science by Stephen Wolfram, New York Review of Books XLXI, No. 16 (October 24, 2002): 43–47; reprinted in Spanish as ”?’Es el universo un ordenador?” in Revista de Libros de la Fundaci´on Caja Madrid, No. 74 (February 2003): 23–30. 295. Adiabatic Modes in Cosmology, astro-ph/0302326, Phys. Rev. D67, 123504 (2003) 296. Foreword to A Century of Nature: Twenty-one Discoveries that Changed the Scientific World (University of Chicago Press, 2003). 297. Damping of Tensor Modes in Cosmology, astro-ph/0306304, Phys. Rev. D 69, 023503 (2004). 298. Nuclear Terror: Ambling Toward Apocalypse, Bull. Amer. Acad. Arts & Sciences, LVI, No. 4, 35–44 (Summer 2003); reprinted in The Federation of American Scientists Public Interest Report, 56, Number 2 (Summer 2003). 299. What Price Glory, New York Review of Books L, No. 17, 55–60 (November 6, 2003). 300. Four Golden Lessons: Advice for Scientists at the Beginning of their Careers, Nature 426, 389 (November 27, 2003). 301. The Wrong Stuff, New York Review of Books LI, No. 6, pp 12–16 (April 8, 2004). 302. The Making of the Standard Model, hep-ph/0401010, Eur. Phys. J. C 34, 5–13 (2004); reprinted in Prestigious Discoveries at CERN, R. Cashmore, L. Maiani, and J-P. Revol, eds. (Springer, 2003): 9-33; reprinted in 50 Years of Yang-Mills Theory, ed. G. ’t Hooft (World Scientific Publishing, Singapore, 2005): 99–117. 303. Can Non-Adiabatic Perturbations Arise After Single-Field Inflation?, astro-ph/0401313; Phys. Rev. D 70, 043541 (2004). 304. Must Cosmological Perturbations Remain Non-Adiabatic After Multi-Field Inflation?, astro-ph/0405397; Phys. Rev. 70, 083522 (2004). 305. A Turning Point?, contribution to a symposium on The Election & America’s Future, New York Review of Books LI, No. 17, 16–17 (November 4, 2004). 306. Review of Oppenheimer: Portrait of an Enigma by J. Bernstein, Physics Today, January 2005. pp 51–52. 307. Quantum Contributions to Cosmological Correlations, Phys. Rev. D72, 043514–1-19 (2005) [hep-th/0506236]. 308. Einstein’s Search for Unification, in Einstein – A Hundred Years of Relativity, ed. Andrew Robinson (Palazzo Editions Ltd, Bath, 2005):102–108; republished by Princeton University Press, Princeton, NJ, 2015. 309. Einstein’s Mistakes, Physics Today 58, No. 11: 31-35 (November 2005); reprinted in E = Einstein - His Life, His Thought, and His Influence on Our Culture, eds. D. Goldsmith and M. Bartusiak (Sterling Publishing, New York, 2006).

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310. Living in the Multiverse: Opening Talk at the Symposium “Expectations of a Final Theory” at Trinity College, Cambridge, September 2, 2005; , hep-th/0511037; in Universe or Multiverse?, ed. B. Carr (Cambridge University Press); reprinted in The Nature of Nature, ed. B. L. Gordon and W. A. Dembski (ISI Books, Wilmington, DL, 2011), pp 547–557 311. Against the Boycott, invited opinion piece in Times Higher Education Supplement, May 26, 2006, p. 16. 312. Quantum Contributions to Cosmological Correlations II: Can These Corrections Become Large?, Phys. Rev. 74, 023508 (2006) [hep-th/0605244] 313. A No-Truncation Approach to Cosmic Microwave Background Anisotropies, Phys. Rev. D 74, 063517 (2006) [astro-ph/0607076] 314. A Deadly Certitude – review of The God Delusion, by Richard Dawkins, The Times Literary Supplement, No. 5416 (January 19, 2007): 5-6 315. To the Postdocs, opinion piece in Physics Today, March 2007, p. 58; reprinted in Japanese in Parity, August 2007: 46-47 316. Tensor Microwave Background Fluctuations for Large Multipole Order (with R. Flauger), Phys. Rev. D 75, 123505 (2007) [astro-ph/0703179]. 317. Invited comment on cosmology, in The Quantum Structure of Space and Time - Proceedings of the 23rd Solvay Conference on Physics, December 2005, (World Scientific, Singapore, 2007): p. 242. 318. Inherited Opportunity, contribution to a series of invited essays on The Future of the American Idea, The Atlantic Monthly, November 2007: 33-34. 319. V-A was the Key, J. Physics: Conference Series 196, 012002 (2009)/ 320. From BCS to the LHC, CERN Courier 48, 17 (January/February 2008); reprinted in Association of Asia Pacific Physical Societies Bulletin 18, No. 2, 30 (April 2008); reprinted as Chapter 8 of Perspectives on LHC Physics, ed. G. Kane & A. Pierce (World Scientific/Imperial College Press, 2008): 133-142; reprinted in Int. J. Mod. Phys. A 23, 1627 (2008); reprinted in BCS: 50 Years, ed. L. Cooper and D. Feldman (World Scientific, Singapore, 2011): pp. 559-568. 321. Science or Spacemen?, Sky and Telescope 115, 96 (May 2008) 322. Israel and the Liberals, Tikkun May/June 2008, p. 86 323. Effective Field Theories for Inflation, Phys. Rev. D 73, 123541 (2008) [hep-th/0804.4291]. 324. A Tree Theorem for Inflation, Phys. Rev. D 78, 063534 (2008) [hep-th/0805.3781]. 325. Without God, New York Review of Books LV, 73 (September 25, 2008); excerpted in French in Philosophie Magazine, November 2008, p. 12; reprinted in Spanish in Letras Libras, March 2009, pp. 12–17; reprinted in German in Lettre International, Spring 2009, pp. 80-82; reprinted in Polish in Europa, April 18-19, 2009, pp. 11-12; reprinted in The .Norton Reader, 13th Edition (W.W. Norton & Co., 2012), pp. 1074-1085. 326. Contribution to ”Advice for the President,” Discover, November 2008, p. 54. 327. Non-Gaussian Correlations Outside the Horizon, Phys. Rev. D 78, 123521 (2008) [hep-th/0808.2909]. 328. Non-Gaussian Correlations Outside the Horizon II: The General Case, Phys. Rev. D 79, 043504 (2009) [hep-ph/0810.2831]. 329. Effective Field Theory, Past and Future, Proceedings of Science CD 09. 001 (2009), published on line at http://pos.sissa.it/cgi-bin/reader/conf.cgi?confid=86 [0908.1964]; re-publlished in Ken Wilson Memorial Volume, ed. B. E. Baaquie, K. Huang, M. E. Peskin, and K. K. Phua (World Scientific, Singapore, 2015). . . 330. Change Course, in “College Advice From People Who Have Been There,” New York Times Sunday Opinion section, September 6, 2009, p. 10.

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331. The Missions of Astronomy, New York Review of Books LVI, No. 16 (October 22, 2009), pp. 19–22; reprinted in Latvian in Rigas Laiks, December 2009, pp. 39-43; reprinted in The Best American Science and Nature Writing, ed. Freeman Dyson (Houghton Miflin Harcourt, Boston, 2010), pp. 23–31; reprinted in The Best American Science Writing, ed. Jerome Groopman (Harper Collins, New York, 2010), pp. 272–281. 332. Changing Views of Quantum Field Theory, Proceedings of the XVIth International Congress on Mathematical Physics at Prague, August 2009, ed. P. Exner (World Scientific, Singapore, 2010): p. 290. 333. Asymptotically Safe Inflation, Phys. Rev. D81, 083535 (2010) [0911.3165]. 334. Obama Gets Space Funding Right, op ed article in The Wall Street Journal, 2/4/10, p. A19. 335. Ending Manned Space Flight is the Right Thing for Science, op ed article in The Austin American-Statesman, 2/7/10, p. F3. 336. A Win for Science, op ed article in The Dallas Morning News, 2/8/10, p. 13A. 337. Advances in science call for unmanned spaceflight, op ed article in The Houston Chronicle, 2/10/10, p. B9. 338. Six-dimensional Methods for Four-dimensional Conformal Field Theories, Phys. Rev. D 82, 045031 (2010) [1006.3480]. 339. Pions in Large N Quantum Chromodynamics, Phys. Rev. Lett. 105, 261601 (2010) [1009.1537]. 340. Ultraviolet Divergences in Cosmological Correlations, Phys. Rev. D 83, 063508 (2011) [1011.1630] 341. The Universes We Still Don’t Know, review of The Grand Design by S. Hawking and L. Mlodinow, New York Review of Books LVIII, No. 2, pp. 31–34 (February 10, 2011). 342. Particle Physics, from Rutherford to the LHC, Physics Today 64, 29–33 (August, 2011); reprinted in 100 Years of Subatomic Physics, ed. E. M. Henley and S. D. Ellis (World Scientific, Singapore, 2013): pp. 3-9. 343. Symmetry: A key to Nature’s Mysteries, The New York Review of Books (October 27, 2011), pp. 69–73; reprinted in The Best American Science Writing 2012, ed. M. Kaku (HarperCollins, New York, 2012), pp. 158–172. 344. Introduction to Chapter 6, ’‘Educators and Academics,” in Texas State Cemetery, eds. J. Walker and W. Erwin (University of Texas Press, Austin, TX, 2011): pp. 147–151. 345. The Higgs, and Beyond, Prospect (December 2011): 74–76. 346. The Crisis of Big Science, The New York Review of Books (May 10, 2012), pp. 59–62; reprinted in The Best American Science and Nature Writing 2013, ed. S. Mukherjee (Houghton Miflin Harcourt, Boston, 2013),pp. 229-239. 347. Collapse of the State Vector, Phys. Rev. A 85, 062116 (2012) [1109.6462]. 348. Why the Higgs boson matters, Editorial Opinion Page, International Herald Tribune, July 14–15, 2012, p. 6; reprinted in German translation in Nachrichten der Olbers-Gesellschaft Bremen (October 2012), pp. 25-26. 349. Why the Higgs?, New York Review of Books (August 16, 2012), 78. 350. Six-dimensional Methods for Four-dimensional Conformal Field Theories II: Irreducible Fields, Physical Review D 86, 085013 (2012) [1209.4659]. 351. Minimal Fields of Canonical Dimensionality are Free, Phys. Rev. D 86, 105015 (2012) [1210.3864]. 352. Liberal Disappointment, The New York Review of Books. (November 8, 2012), p. 63. 353. Varieties of Symmetry, Symmetry: Culture and Science 23, 5 (2012). 354. Changing Views of Symmetry, in From the PS to the LHC – 50 Years of Nobel Memories in High-Energy Physics, L. Alvarez-Gaum´e et al. eds. (Springer-Verlag, Berlin, 2013).

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355. Closing some tax loopholes would do more harm than good, op-ed article in The American Statesman, December 20, 2012, p. A15. 356. Living With Infinities — The Contributions of Gunnar K¨all´en and Expectations for the Future, published as Chapter 61 in Portrait of Gunnar K¨ all´en — A Physics Shooting Star and Poet of Early Quantum Field Theory, ed. Cecilia Jarlskog (Springer International Publishing, Switzerland, 2013): pp. 279–292. 357. Tetraquark Mesons and Large N Quantum Chromodynamics, Phys. Rev. Lett. 110, 261601 (2013). [1303.0342] 358. Goldstone Bosons as Fractional Cosmic Neutrinos, Phys. Rev. Lett. 110, 241301 (2013). [1305.1971] 359. Foreword to Time in Powers of Ten by G. ’t Hooft and Stefan Vandoren (World Scientific, Singapore, 2014), p. ix. 360. Physics: What We Do and Don’t Know, New York Review of Books LX, No. 17, 86 (November 7, 2013; 50th Anniversary Issue); reprinted in German translation in Merkur - Deutsche Zeitschrift f¨ ur europ¨ aischen Denken, Vol. 3, p. 212 (March 2014); reprinted in Italian translation in La Fisica nella Scuola XLVII, No. 3, 102 ( July-September 2014). 361. Against Manned Space Flight Programs, Space Policy 29, 229 (2013). 362. Tom Kibble: Breaking Ground and Breaking Symmetries, in Symmetry and Fundamental Physics: Tom Kibble at 80, ed. J. Gauntlett (World Scientific, Singapore, 2014): pp. 125-131. 363. Quantum Mechanics without State Vectors, Phys. Rev. A 90, 042102 (2014). [1405.3483] 364. The Art of Discovery, Proceedings of The Philosophical Society of Texas LXXIII (2014):pp.35-38. 365. Eye on the Present - The Whig History of Science, The New York Review of Books LXII, No. 20, 82 (December 17, 2015). 366. Nambu, At the Beginning, to be published in Progress of Theoretical and Experimental Physics 367. What Happens in a Measurement?, Phys. Rev. A 93, 032124 (2016). [1603.06008] Published Interviews 1. “A conversation with Steven Weinberg,” in NOVA — Adventures in Science, prepared by WGBH — Boston (Addison–Wesley Publishing Co., 1982), pp 34–35. 2. Interview in Superstrings — A Theory of Everything, ed. by P.C.W. Davies and J. Brown (Cambridge University Press, Cambridge, U.K., 1988), pp 211–224. 3. Interview with Bill Moyers, in A World of Ideas, ed. by B. S. Flowers (Doubleday, New York, 1989) pp 249–262; excerpted in Dialogue: A quarterly journal of the U.S. Information Agency 89, 28 (March, 1990). 4. Interview with Alan Lightman, in Origins: The Lives and Worlds of Modern Cosmologists, ed. by A. Lightman and R. Brawer (Harvard University Press, Cambridge, MA 1990), p. 451. 5. “Will Congress Remain a Patron of Science?,” interview with Peter Spotts, The Christian Science Monitor, March 1, 1995, 19. 6. “Steven Weinberg Dreams of a Final Theory,” interview with Simon Mitton, Science Watch 7, No. 6, pp. 3–4 (November/December 1996). 7. “Viraconto la grande Teoria Final,” interview with Giovanni Maria Pace, La Repubblica, December 8, 1996

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8. ”Perspective: Withering on the Divine,” interview with Andrew Robinson, The Times Higher Education Supplement, No. 1338 (June 26, 1998), p 17. 9. ”Auf der Suche nach eines sch¨ onen Formel,” interview with Frank Grotel¨ uschen, Berliner Zeitung – Wissenschaft, No. 299 (December 23, (1998) : p. IV. 10. ”Comment le big bang a chang´e notre vision de l’Univers — Une entrevue exclusive avec le c’el‘ebre astrophysicien Steven Weinberg,” interview with Vincent Scotte, Qu´ebec Science, Vol. 37, No. 6 (March 1999): pp. 51–52. 11. “Weinberg: Aposto num universo aberto e infinito,” Gazerto Mercantil, Sao Paolo (March 6-7, 1998): pp 1–2. 12. ”Lonely Planet: An Interview with Steven Weinberg,” interview with Margaret Wertheim, Science and Spirit 10, no. 1, 20–22 (April/May 1999). 13. “Die Welt ist kalt und unpers¨ onlich,” Der Spiegel, Nr. 30., pp. 191–194. (July 26, 1999) 14. “Many Questions, Some Answers,” interview with Timothy Ferris and Paul Davies, Forbes ASAP (October 2, 2000): 267-271. 15. ”Physicist Ponders God, Truth, and Final Theory,” by James Glanz, Mew York Times, reprinted in Scientists at Work, ed. by L. Chang (McGraw Hill, New York Times, 2000): 351–357. 16. “A F´ısica Elegante,” interview with Alexandra Ozorio de Almeida, Folha de S. Paulo Mais, No. 489, 4-7 (June 24, 2001). 17. “Steven Weinberg, Aposta Num Aniverso Aberto e Infinito,” interview with Alessandro Greco, in Homens de Ciˆencia (Conrad Editora do Brasil Ltda., S˜ao Paulo, 2001): 166–170. 18. “Weinberg sue˜ na una teor´ıa final,” El Informador, Guadalajra, Mexico, (March 23, 2002): 8-A. 19. “The Great Unifier,” Discover 23, no. 4 (May 2002): 18. 20. Interview with Peter Catalano, translated into Japanese in Great Minds of Our Time (Gakken, Tokyo, 2002) 21. Interview with Istv´ an Hargittai, in Candid Science IV: Conversations with Famous Physicists (Imperial College Press, London, 2003): 21–31. 22. “Number One: A Model of Leptons” (one of a series of interviews of James Riordan with the authors of the ten most cited articles in Physical Review Letters), APS News 12, No. 8: 3 (August/September 2003). 23. “Wij Passen in Geen Enkele Andere Wereld,” interview with Dirk Draulens, in Knack, Antwerp, Belgium (21 December 2005): pp. 74–78. 24. Interview in Celebrating 75 Years of Excellence in Enhancing the Understanding and Appreciation of Physics Teaching (American Association of Physics Teachers, 2006): 107 25. “There will be less room for religion,” interview in Newsweek International Edition, September 15, 2008: p. 51.

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¨ 26. ”Uber Gott und die Welt,” interview with Stefan Klein in Zeit Magazin, April 2, 2009, pp. 26-33. 27. “Ich glaube, dass die Welt ohne Religion besser w¨are,” interview with Barbara Vonarburg in Tages Anzeiger (Zurich), July 8, 2009, p. 26, and in Der Bund (Bern), July 10 (2009), p. 32. ˝ ´ ¨ (Budapest), August 3, 2008, p. 6 28. “Urhaj´ osok helyett automat¨ akat,” NEPSZABADS AG 29. Interview with Gyula Bencze, to be published in Term´eszet Vil´aga (Budapest) 30. “Die Hypothese eines wohlwollenden Sch¨opfers ist unn¨otig,” interview with Joachim Laukenmann in SonntagsZeitung (Zurich), August 16, 2009, pp. 57–58. 31. “Steven Weinberg: master builder of the Standard Model,” interview with Christine Sutton, Cern Courier, September 2009, pp. 22-23. 32. “Tudom´ any, t´ arsadalom, m˝ uv´eszetek,” interview with Bencze Gyula, Term´eszet Vil´aga, October 10, 2009. 33. Interview with Mike Shea, Texas Monthly, Januaray 2010, pp. 56–58. 34. Interview in ”Scientist’s Nightstand” web page of American Scientist, http://www.americanscientist.org/bookshelf/pub/scientists-nightstand-steven-weinberg 35. ”Die Einheit der Welt,” interview with Stefan Klein in Wir Alle Sind Sternenstaub — Gespr¨ ache mit Wissenschaftlern u ¨ber die R¨ atsel unserer Existenz (Fischer Taschenbuch Verlag, 2010). 36. “Dr. Unification,” interview with Amir D. Aczel, Scientific American, November 2101, pp. 64–67. 37. A conversation with Steve Paulson on science and religion, in Atoms and Eden (Oxford University Press, 2010): pp. 259–271. 38. Interview with CJ Polychroniou, in Epsilon, No. 1038, pp. 52–59 (March 6, 2011). 39. Interview in Populyarnaya Mechanuka (Moscow, January 2013), pp 36–38. 40. “Netie˘sie realit¯ ates nov¯erojumi,” interview with Arnis R¯itups in Latvian in R¯igas Laiks, January 2013, pp. 22–31. 41. “Steven Weinberg: ‘I wanted to be on the in — privy to all the secrets of physics,” interview with Brian Clegg in The Observer, London, March 2, 2013. 42. Interview with M. Hargittai and I. Hargittai, in Great Minds (Oxford University Press, Oxford, UK, 2014): pp. 109-111. 43. “Nonsense to say modern science existed in ancient Greece or India,” Sunday Times of India, March 22, 2015, p. 16. 44. “Nobel Laureate Steven Weinberg Still Dreams of Final Theory,” with John Horgan in Scientific American Blog, May 1, 2015, permanent address: http://blogs.scientificamerican.com/cross-check/2015/05/01/nobel-laureate-steven-weinbergstill-dreams-of-final-theory/

Steven Weinberg 45. “On the History of Science,” with Matt Elton, BBC HISTORY 16, no. 4 (April 2015), pp. 65–67. 46. “Joining the Dots” with David Wilkinson, THIRD WAY (April 2015) 47. “Nonsense to say modern science existed in ancient Greece or India,” in Breakthrough: A Journal on Science & Society, 17, No. 4 (May 2015). 48. “The Unity of the World,”interview with Stefan Klein in We Are All Stardust (Workman Publishing Co.,Inc., New York, 2015), pp.73–86.

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