BIBLIOGRAPHY

NUCLEAR PHYSICS

1956b: Interpretation of K-Meson Decays, Phys. Rev. 102, 1420 (1956).

1954a: Hard Core Interpretation of the Reaction p + d → π⁺ + t, Phys. Rev. 94, 1722 (1954).

1954c: Validity of the Born-Oppenheimer Approximation (with P.B. Daitch), Phys. Rev. 95, 823 (1954).

1954d: Theoretical Study of a Source of Intermediate Y Energy Neutrons, UCRL-2449 (Jan. 7, 1954, unpublished).

1955a: Extended Isotopic Spin Invariance and Meson-Nucleon Coupling, Phys. Rev. 100, 372 (1955).

1956a: Radiative and Nonradiative Boson Decay into Leptons (with M. A. Ruderman), Phys. Rev. 101, 910 (1956).

1959: Phenomenological Analysis of Hyperon Decay. Phys. Rev. 115, 468 (1959).

1960a: Radiative Pion Decay into Electrons (with J. A. Young), Phys. Rev. 118, 602 (1960).

1960d: Electromagnetic Properties of Charged Vector Mason Intermediary in Weak Interactions (with J. A. Young), Proc. 1960 Annual International Conference on High Energy Physics at Rochester, 564.

1961: Absence of μ- e Conversion Processes and the ΔI = 1/2 Rule, Phys. Rev. 124, 947 (1961).

1962: Electromagnetic Production of Charged Vector Mesons (with J. A. Young), Phys. Rev. 126, 303, (1962).

1963a: Electromagnetic Properties of a Charged Vector Meson (with J. A. Young), Phys. Rev. 131, 5, 2326-2334 (1963).

1964a: Further Analysis of the Decay π→e+μ+ν (with Stanley G. Brown), Phys. Rev. 136 B213 (1965).

1970b: Nonleptonic Hyperon Decays (with J. Shimada), Phys. Rev. D, 1, 2687-2695 (1970).

1976b: Equation of State of an Ideal Fermi Gas (with K. A. Van Riper), Astrophys. Journal 212, 859 (1977).

1976c: Composition and Equation of State of Thermally Dissociated Matter (with K. A. Van Riper), Astrophys. J. 213, 239 (1977).

1980b: Extrapolation of the Phenomenological Nuclear Equation of State to High Densities (with C.B. Dover), Phys. Rev. D22, 1333 (1980).

GAUGE SYMMETRIES AND SPONTANEOUS SYMMETRY BREAKING

1958b: On the Universal Fermi Interaction. Nuovo Cimento 9, 550 (1958).

1963d: Broken Symmetries and Massless Particles (with A. Klein), Phys. Rev. 131, 5, 2364-2372, (1963).

1963e: Broken Symmetries and Massless Particles (with A. Klein), Proc. Midwest Conf. on Theoretical Physics, 50-64 (Univ. of Notre Dame, 1963).

1966a: Broken Symmetries and Massless Particles, Proceedings of Seminar on Unified Theories of Elementary Particles (ed. by H. Richeuberg, Max-Planck Institute, Munich, 1966).

1966b: Unified Theories of Elementary Particles, Physics Today 19, 55 (1966).

1966c: Hidden Symmetries and the Question of Massless Particles, High-Energy Physics, Vol. II of Tokyo Summer Lectures in Theoretical Physics (W. A. Benjamin, 1966).

1979f: Unified, Yes, Renormalized Maybe, Nature 282, 280 (1979).

1992c: The First Gauge Theory of Weak Interactions and the Prediction of Weak Neutral Currents, Proc. Third International Symp. on the History of Particle Physics: "The Rise of the Standard Model" (AIP Conf. Proc. 1992).

1993a: The Role of Gauge Theory, Symmetry-Breaking and Electroweak Unification in the Discovery of Weak Neutral Currents, Discovery of Weak Neutral Currents: The Weak Interaction Before and After (ed. A. K. Mann and D. B. Cline, AIP Conf. Proc. 300, 1994).

NEUTRINO PHYSICS AND WEAK INTERACTIONS

1957c: Recent Developments in the Theory of Weak Interactions. Bull. Am. Phys. Soc. 2.316 (1957).

1958a: Phenomenological Analysis of μ Decay (with A. Klein), Phys. Rev. 109, 550 (1958).

1959a: Two-Neutrino Hypothesis, Bull. Am. Phys. Soc. 4, 80 (1959) (Gatlinburg Conference, 1958).

1965: K₂→π⁺ + π⁻ and the Question of Bose Statistics for Pions, Phys. Rev. 133, B213 (1965).

1967a: Non-Leptonic Weak Interactions, Weak Interactions and Symmetry Principles (Gordon and Breach, 1967).

1963b: Two Neutrinos or One? Il Nuovo Cimento Serie X, Vol. 27, 751-760 (1963). 1963c: One Four-Component Neutrino, Proc. Eastern Theoretical Physics Conference (Gordon and Breach, 1963).

1964b: Electromagnetic Form Factor of the Neutrino (with W. K. Cheng), Phys. Rev. 136, B1787 (1964).

FIELD THEORY

1954b: Classical Radiation from Moving Charges, Phys. Rev. 95, 654 (A), (1954).

1957b: Some Theoretical Consequences of a Particle Having Mass Zero, Phys. Rev. 1078, 1163 (1957).

1966d: Distinction between Composite and Elementary Particles in a Model Field Theory (With N. G. Deshpande), Phys. Rev. 143, 1239 (1966).

1966e: Spontaneously Broken Symmetries and the Question of Massless Particles in a Model Field Theory (with N. G. Deshpande), Phys. Rev. 143 1239 (1966).

1966f: Vanishing Renormalization Constants and Spontaneous Generation of Symmetries (with N.G. Deshpande), Nuovo Cimento 45, 656 (1966).

1967b: Applications of the Dirac-Schwinger Covariance Condition in Quantum Electrodynamics (with S. Brown), Phys. Rev. 161, 1505-1512 (1967).

STATISTICAL MECHANICS AND MISCELLANEOUS

1951: On the Application of Solutions of Schroedinger's Equation to Problems of Normal Mode Propagation, WHO1-51-77 (Sept. 1951, unpublished).

1957a: Aberrations and Fringing Effects in a 180 deg Double Focussing Magnetic Spectrometer (with D. L. Judd), Nuclear Inst. 1, 46 (1957).

1960b: Statistical Mechanics of Relativistic Streams (with M. N. Rosenbluth and K. M. Watson, Physics of Fluids 3, 741, 1960.

1960c: Stability of an Infinite Uniform Stream Penetrating Cold Plasma (with M. N. Rosenbluth and K. M. Watson), Physics of Fluids 3, 747 (1960).

2004b: Nonequilibrium Thermodynamics of Radiation and Matter (with C. Essex and D.C. Kennedy), Variational and Extremum Principles in Macroscopic Systems (Elsevier, 2004).

RELATIVISTIC ASTROPHYSICS

1960e: Equivalence Principle. General Relativity and Their Observational Tests, UCRL-9176 (March, 1960, unpublished).

1968: Possibility of the Speed of Sound Exceeding the Speed of Light in Ultradense Matter (with M. A. Ruderman), Phys. Rev. 170, 1176-1184 (1968).

1970a: Non-causality and Instability in Ultradense Matter (with M. A. Ruderman). Phys. Rev. D, 3243-3246 (1970).

1972: Equation of State of Ultradense Relativistic Matter, Developments in High Energy Physics. Proc. of the International Summer School of Physics "Enrico Fermi" LIV Corso (Varenna, 1971).

1973a: Stability of Relativistic Polytropes, Ap. J. 183, 637 (1973).

1973b: Simple Calculation of Critical Parameters of Neutron Stars, Ap. J. 183, 649 (1973).

NEUTRINO ASTROPHYSICS AND COSMIC RAYS

1973d: Neutrinos from Collapsing Stars, Topical Seminar on Weak Interactions (IC/473/133, Trieste, 1973).

1974b: Antineutrino Pulses from Vibrations of a Newly Formed Hot Neutron Star (with J. M. Cohen and K. Lande), General Relativity and Gravitation Journal (1975).

1975a: Bounds on Neutrino Burst Intensity Imposed by the Exclusion Principle and Causality (with M. A. Ruderman), Astrophys J. 195, L19 (1975).

1975b: Neutrino Astrophysics, Annals of N.Y. Acad. Sci. 262, 181 (1975) (Proc. VIIth Texas Symposium on Relativistic Astrophysics).

1976a: Theoretical Limits on Interstellar Magnetic Poles Set by Nearby Magnetic Fields (with M. A. Ruderman), Phys. Rev. Lett. 36, 840 (1976).

1976d: Neutrino Transport in Collapsing Stars, Proc. 1976 Intl. Neutrino Conference (Aachen, 1976).

1976e: Diffusion Approximation of Neutrino Fluxes Out of Collapsing Stars, Proc. DUMAND Workshop (Hawaii, 1976).

1977b: Neutron Transport Methods in Neutrino Transport Calculations (with I. Lichtenstadt, A. Ron, N. Sack and J. J. Wagschal), Nuclear Sci. and Engineering 64, 294 (1977).

1977c: Can Reactor Physicists Do Neutrino Transport? (with I. Lichtenstadt, A. Ron, N. Sack, and J.J. Wagschal), Trans. Isr. Nucl. Soc. 4, 27 (1976).

1978a: Effects of Neutrino on Neutrino Radiation from Dense Stellar Cores (with I. Lichtenstadt, A. Ron, N. Sack and J. J. Wagschal), Astrophys. J. 226, 222 (1978).

1978b: Diffusion Approximation to Neutrino Transport in Dense Matter (with K. A. Van Riper), Astrophys. J. 224, 631 (1978).

1979c: Time-Dependent Neutrino Transport Out of Dense Stellar Cores (with I. Lichtenstadt, A. Ron), Astrophys. J. 237, 903 (1980).

1980a: Thermal Stiffness of Warm Nuclear Matter and Supernova Explosions by Shock Heating (with N. Sack and I. Lichtenstadt), Astrophys. J. 237, 903 (1980).

1980c: Electron Capture as Supernova Killer (with 1. Goldberg, N. Sack, I. Lichtenstadt) Abhand, Akad Wiss. Gottingen, Math-Physik KI. III, Nr. 33).

1982a: Homologous Collapse and Deleptonization of an Evolved Stellar Core (with I. Lichtenstadt and G. Hayden), Astrophys. J. 261, 661 (1982).

1982b: Adiabatic Collapse and Explosion of Low-Mass Iron Stellar Cores (with I. Lichtenstadt), Numerical Astrophysics (ed. J. Centrella, Univ. of Illinois, 1982).

1983a: Effect of Initial Thermal Structure on the Collapse and Explosion of Iron Stellar Cores (with I. Lichtenstadt), Astrophys. J. 276, 746 (1984).

1983b: Calculation of Cosmic Ray Neutrino Flux (with T. K. Gaisser, T. Stanev and H. Lee), 18th International Cosmic Ray Conference (Bangalore, 1983).

1983c: Flux of Atmospheric Neutrinos (with T. K. Gaisser, T. Stanev, and H. Lee), Phys. Rev. Lett. 51, 223 (1984).

1983d: Angular Distribution and Flux of Atmospheric Neutrinos (withT. K. Gaisser, T. Stanev, and H. S. Lee) Proc. Fourth Workshop on Grand Unification (Philadelphia, 1983).

1983e: An Analytic Treatment of Air Shower Development: Depth of Shower Maximum (with M. L. Cherry, A. Dar), UPR-022T, unpublished, 1983.

1984b: Neutrino Production from Discrete High Energy Gamma Ray Source (with H. Lee), Astrophys. J. 290, 28 (1985).

1985a: Three Dimensional Calculation of Flux of Low Energy Atmospheric Neutrinos (with H. Lee), Proc. XIX Intl. Cosmic Ray Conference, La Jolla 5, 454 (1985). 1986a: Low Energy Atmospheric Neutrinos (with H. Lee), Phys. Rev. D37, 122 (1985).

1986b: A Calculation of Low Energy Atmospheric Muon Flux. (with H. Lee) submitted to Phys. Rev. 1986c: The Effects of Neutrino Transport on the Collapse of Iron Stellar Cores. (with E. Myra, Y. Hoffman, I. Lichtenstadt, N. Sack and K. van Riper), Astrophys. J. 318, 744 (1988).

1987a: General Relativistic Collapse with a Soft Nuclear Equation of State, Phys. Reports 163, 47 (1988).

1987b: Theoretical Significance of Detecting Neutrinos from Supernova 1987A (with P. J. Schinder), UPR-0326T, unpublished, 1987.

1987c: Statistical Analysis of the Time Structure of the Neutrinos from Supernova 1987A, (with P. J. Schinder), Astrophys. J. 326, 265 (1988).

1987d: Statistical Analysis of the Time Structure of the Neutrinos from 1987A (with J. Schinder), Supernova 1987Ain the Large Magellanic Cloud, (ed. M. Kafatos and A. Michalitsianos, Cambridge Univ. Press, 1988).

1987e: Supernova Neutrino Dynamics: What We have Not Learned From Supernova 1987A and What to Expect From the Coming Galactic Supernova (with P. J. Schinder), Neutrino Astronomy, (ed. D. Cline, World Scientific, 1988).

1988a: General Relativistic Implicit Hydrodynamics in Polar Sliced Space-Time (with P. J. Schinder and T. Piran), Phys. Rev. D37, 2722 (1988).

1988b: Theoretical Mechanisms for Type II Explosion Dynamics, P. 487-493, Dark Matter (ed. J. Tran Than Van, Editions Frontieres, Gif-sur-Yvette, 1988).

1988c: General Features of Neutrino Explosion Dynamics Revealed by Supernova 1987a (with P. J Schinder), 461-470, Dark Matter, (ed. J. Tran Than Van, Editions Frontieres, Gif-sur-Yvette, 1988).

1988d: Neutrino Transport and the Prompt Mechanism for Type II Supernova (with E. Myra), Astro Phys. J. 340, 384 (1989).

1988e: Radiative Transport in Spherical Static Space-Time: General Relativistic Tangent-Ray Method for the Variable Eddington Factors (with P. J. Schinder), Astrophys. J. 346, 350 (1989).

1989a: General Relativistic Hydrodynamics and Radiation Transport (with P.J. Schinder), N.Y. Acad. Sci. 571, 205 (1990).

1989b: Type II Supernova Dynamics, in Particle Astrophysics: Forefront Experimental Issues (ed. E. S. Norman, World Scientific 1989).

1989d: Supernova and Solar Neutrinos, Nuclear Physics B, Proceedings Supplements 14B, 179 (1990).

1989e: Relativistic Neutrino Transport in Stellar Collapse, (with P.J. Schinder) in Supernovae (ed. S. E. Woosley, Springer-Verlag, 1990).

1990a: Neutrino Flavor-Spin Oscillations in the Sun, Particles, Strings and Cosmology, Proceedings of Pascos-90, Northeastern University (ed. P. Nath and S. Reucroft, World Scientific, 1991).

1990c: Preface to Supernovae, Session LIV of Les Houches NATO ASI, (ed. Bludman et al., Elsevier, 1994).

1991a: Preliminary Estimates of Core-Collapsed Supernovae Rates from the Berkeley Automated Supernova Search, (with C. Pennypacker, S. Perlmutter, R. A. Muller, N. Hamilton, C. Smith, T. Sassen, S. Carlson, H. Marvin, L. P. Wang, F. Crawford, R. Treffers), Proceedings of the UCLA Supernova Watch Workshop (World Scientific, 1991).

1991c: Seesaw Model Predictions for the Tau-Neutrino Mass (with D. C. Kennedy and P. G. Langacker), 1810 (1991).

1991d: Neutrino Masses and Lifetimes, Proc. First Intl. A. Sakharov Conf. on Physics, Moscow, (Nova Science Publ., 1991).

1991e: Improved Cosmological and Radiative Decay Constraints on Neutrino Masses and Lifetimes, Phys. Rev. D45, 4720 (1992).

1992a: Cosmological and Astrophysical Bounds on Neutrino Masses and Lifetimes, Discovery of the Neutrino (ed. C.E. Lane and R.I. Steinberg, World Scientific, 1993).

1993c: Maximum Entropy Distribution and Closure for Bose-Einstein and Fermi-Dirac Radiation Transport, (with J. Cernohorsky), Astrophys. J. 433, 250 (1994).

1994b: Neutrino Transport in Type II Supernovae, (with Cernohorsky), The Physics of Supernovae, Physics Reports 256, 37 (1995).

1994c: Preface, (with Feng, Gaisser, Pittel), The Physics of Supernovae, Physics Reports 256,37 (1995).

1995a: Accurate Neutrino Transport is Critical to the Supernova Explosion Mechanism, Bull. 185th Meeting of Amer. Astron. Soc., 1995.

1999d: Closure in Flux Limited Neutrino Diffusion and Two Moment Transport, (with J.M. Smit, L.J. van den Horn), Astronomy and Astrophysics 356, 559 (2000).

2009b: Kepler's Supernova 1604 and the Star of Bethlehem, Highlights of Astronomy, Volume 15. Int. Astronomical Union, General Assembly Rio de Janeiro 2009

SOLAR NEUTRINOS AND STELLAR STRUCTURE

1973c: Review of the Solar Neutrino Puzzle, Topical Seminar on Weak Interactions (IC/73/133, Trieste, 1973).

1990b: Solar Neutrinos: Physics Beyond the Standard Model?, Supernovae, Session LIV of Les Houches NATO ASI, (ed. Bludman et al., Elsevier, 1994).

1991b: Solutions to the Solar Neutrino Problem, with D. C. Kennedy and P. G. Langacker, Nuclear Physics B373, 498 (1992).

1992b: Theoretical Implications of the Combined Solar Neutrino Observations, (with D. C. Kennedy and P, G. Langacker), Nucl. Phys. B374, 373 (1992).

1992d Implications of Combined Solar Neutrino Observations and and Their Theoretical Uncertainties, with N. Hata, D.C. Kennedy and P.G. Langacker, Phys. Rev. D47, 2220 (1993).

1993b: Astrophysical Solutions are Incompatible with the Solar Neutrino Observations, (with N. Hata, P. Langacker), Phys. Rev. D49, 3622 (1994).

1996a: Solar Core Homology, Solar Neutrinos and Helioseismology, (with Dallas C. Kennedy), Astro phys. J. 472, 412 (1996).

1998b: Variational Principles for Stellar Structure, (with Dallas C. Kennedy), Astrophys. J. 484, 329 (1997); 492, 854 (1998).

1999a: Analytic Models for the Mechanical Structure of the Solar Core, (with D.C. Kennedy), Astro phys. J. 525, 1024 (1999).

2010a: Classical Scaling Symmetry Implies Useful Nonconservation Laws, arXiv:1002.4670.

2010b: Invariant Relationships Deriving From Classical Scaling Transformations (with Dallas C. Kennedy), arXiv:1008.4086, J. Math. Physics 52, 04902 (2011).

2010c: Scale Invariant Stellar Structure (with Dallas C. Kennedy), arXiv:1008.4281.

2011a: Applications of Classical Scaling Symmetry (with Dallas C. Kennedy), arXiv:1106.1222v1 . 2011b: Scaling Symmetry Makes Spherical Hydrostatics Integrable (with Dallas C. Kennedy), arXiv:1112.4223v1

2012a: How Scaling Symmetry Solves a Second-Order Differential Equation (with Andres Guzman, Dallas C. Kennedy), arXiv:1212.0179.

COSMOLOGY

1974a: Cosmological Neutrinos, Neutrinos-1974. Proc. Intl. Conf. on Neutrino Physics and Astrophysics, Philadelphia, Pa. (ed. C. Baltay, American Institute of Physics, New York, 1974).

1974c: Neutrino Cosmology, General Relativity and Gravitation 7, 569 (1975).

1977a: Induced Cosmological Constant Expected above the Phase Transition Restoring Broken Symmetry (with M. A. Ruderman), Phys. Rev. Lett. 38, 255 (1977).

1979a: Clusters of Galaxies Compared with N-Body Simulations: Density Profiles (with M. F. Struble), Astron. J. 84, 40(1979).

1979f: Elementary Particle Symmetry Restoration can Prevent a Cosmological Singularity, unpublished, 1979.

1981a: The Early Universe, Chairman's Summary at Xth Symposium on Relativistic Astrophysics, Dec. 15-19, 1980, Annals N.Y. Acad. Sci. 375, 419 (1981).

1981b: Elementary Particle Phase Transitions in the Very Early Universe, Cosmology and Particles, Editiones Frontieres (ed. Adouze et al., Paris, 1981).

1982c: Grand Unification Can Avoid the Initial Cosmological Singularity, unpublished, 1982.

1982d: Particle Phase Transitions Can Prevent an Initial Cosmological Singularity, The Early Universe (I.A.U. Symposium No. 104, D. Reidel Publishing Company, 1982).

1983f: Thermodynamics and the End of a Closed Universe, Nature 308, 319 (1984). 1984a: Can Unclustered Matter Close the Universe? (with Y. Hoffman), Phys. Rev. Lett. 52, 2087 (1984),

1989c: Cosmological Neutrinos and Other Dark Matter, Nucl. Physics B, Proceedings Supplements 14B, 149 (1990).

1995b: Big Bang Nucleosynthesis in Crisis, (with Hata, Scherrer, Steigman, Thomas, Walker and Langacker), Phys. Rev. Lett. 75, 3977 (1995).

1996b: Deuterium Abundances and Cluster Baryon Fractions Used to Obtain Baryonic and Total Mass Densities, Neutrinos, Dark Matter and the Universe (Rencontres de Blois, 1996).

1997a: Cosmological Implications of Two Conflicting Deuterium Abundances, (with Hata, Steigman, Langacker), Phys. Rev. D55, 540 (1997).

1998a: Baryonic Mass Fraction in Rich Clusters and the Total Mass Density in the Cosmos, Astrophys. J. 508, 535(1998).

1999c: Vacuum Energy: If Not Now, Then When?, PANIC '99. Proc. 15th International Conf. Particles & Nuclei, Uppsala, 1999 (ed. Faeldt et al., Elsevier, 2000), 865c.

1999e: Vacuum Energy: Es Muss Sein, Proc. Joint European & National Astronomical Conference, (Toulouse (1999), to be published.

2000a: Observed Smooth Energy is Anthropically Even More Likely As Quintessence Than As Cosmological Constant, astro-ph/0002204, Proc. Third Intl. Workshop on Particle Physics and the Early Universe, COSMO-99 (ed. U. Cotti et al, World Scientific, 2000), 113.

2000b: Smooth Energy: Cosmological Constant or Quintessence?, (with M. Roos), Astrophysic. J. 547,77 (2001).

2001a: Quintessence Cosmology, Cosmic Evolution (ed. E. Vangioni-Flam et al, World Scientific, 2001).

2001b: Quintessence Cosmology and the Cosmic Coincidence, (with M. Roos), DESY 01-147, astroph/0109551, Phys. Rev. D65, 043503 (2002).

2001c: Observed Smooth Energy Fitted by Parametrized Quintessence, Proc. TAUP2001, DESY 01165, astro-ph/0110489.

2003a: Critique of Tracking Quintessence, Multiwavelength Cosmology (ed. M. Plionis (Kluwer, 2004).

2003b: What We Already Know About Tracking Quintessence, Neutrino Oscillations in Venice, ed. M. Baldo Ceolin (Edizioni Papergraf).

2004a: Tracking Quintessence Would Require Two Cosmic Coincidences, Phys. Rev. D69, 122002 (2004).

2004b: Vacuum Energy: Cosmological Constant or Quintessence?, (with M. Roos), arXiv:astro-ph/0004328.

2006: Cosmological Acceleration: Dark Energy or Modified Gravity?, arXiv:astro-ph/0605198.

2007: The Dynamics Driving Cosmological Acceleration: Dark Energy or Modified Gravity?, WSPC Proceedings, arXiv:astro-ph/0702085.

2008a: Is Cosmological Acceleration Driven By Classical Spacetime Geometry?, Int. J. Mod. Physic D 17, 1-28 (2008).

2008b: Gravitational Vacuum Energy in Our Recently Accelerating Universe, 60 Years of of the Casimir Effect, IOP Journal of Physics Conference Series 161 (2009) 012016, arXiv:0809.2253.

2009: What Drives Our Accelerating Universe?, arXiv:astro-ph/0702085.

2011a: Applications of Classical Scaling Symmetry, arXiv:1106.1222v1.

2011b: Scaling Symmetry Makes Spherical Hydrostatics Integrable, arXiv:1112.4223v1.

2011c: Invariant Relationships Deriving from Classical Scaling Transformations (with Dallas C. Kennedy), J. Math Physics 52, 042902 (2011).

2012: How Scaling Symmetry Solves a Second-Order Differential Equation (with Andres Guzman and Dallas C. Kennedy), arXiv:1212.0179v1.

2013: Scaling 2013: Scaling Symmetry and Integrable Spherical Hydrostatics (with Dallas C. Kennedy), J. Modern Physics, 2013, 4, 48942013, 4, 486-494.

BOOK REVIEWS

1961b: T.C. Schelling and M.H. Halperin, Strategy and Arms Control (Twentieth Century Fund, 1961), Bull. Atomic Scientists, 1961.

1980d: Recent Developments in Gravitation. Cargese, 1978 (ed. M. Levy and S. Deser, Plenum Press.

1980e: General Relativity and Gravitation (ed. A. Held, Plenum Press, 1980), Science 209, 1234. (1980).

1982e: To Fulfill a Vision (ed. Y. Ne'eman, Addison-Wesley, 1981), Science 217, 528 (1982).

1994a: R.E. Marshak, Conceptual Foundations of Modern Particle Physics (World Scientific, 1993), Physics Today 47, 63 (1994).