by Mark Bowen
Breisky, Bill. 2012. On its centenary, celebrating a ride that advanced physics. New York Times, 7 August.
Broecker, Wallace S. 1995. Cooling the tropics. Nature 376:212–13.
Brown, Laurie M. 1978. The idea of the neutrino. Phys. Today 31:23–8.
Brown, Laurie M., and Helmut Rechenberg. 1996. The origin of the concept of nuclear forces. Philadelphia: Institute of Physics Pub.
Browne, Malcolm W. 1998a. Mass found in elusive particle; universe may never be the same. New York Times, 5 June.
________. 1998b. Room in the universe for ancient beliefs and modern physics. New York Times, 9 June.
Burrows, Adam. 1987. The birth of neutron stars and black holes. Phys. Today 40:28–37.
________. 1989. In J. Schneps et al. eds. Proceedings of the 13th International Conference on Neutrino Physics and Astrophysics, Boston (Medford) June 5–11, 1988. Singapore: World Scientific, 142.
Cameron, A. G. W. 1958. Modification of the proton-proton chain. B. Am. Phys. Soc. 3:227.
CERN Communications Group. 2009. LHC: The guide (CERN-Brochure-2009-003-Eng). http://cdsweb.cern.ch/record/1165534/files/CERN-Brochure-2009-003-Eng.pdf (accessed May 24, 2011).
Chadwick, James. 1914. Intensitätsverteilung im magnetischen Spektrum der ß-Strahlen von Radium B + C. Verhandlungen der Deutschen Physikalischen Gesellschaft 16:383.
________. 1932. Possible existence of a neutron. Nature 129:312. [doi:10.1038/129312a0]
Chang, Kenneth. 2001. Sun’s missing neutrinos: Hidden in plain sight. New York Times, 19 June.
Cho, Adrian. 2013. Boxed in. Science 341:1056–9. [doi: 10.1126/science.341.6150.1056]
________. 2015. Cosmic convergence. Science 349:465–7. [doi: 10.1126/science.349.6247.465]
________. 2016. Will Nobel Prize overlook LIGO’s master builder? Science 353:1478–9. [doi: 10.1126/science.353.6307.1478]
Chudakov, A. E., Ya. S. Elensky, and S. P. Mikheev. 1987. Characteristics of the neutrino emission from supernova SN1987A. JETP Lett. 46:373–7.
Cleveland, B. T., et al. 1998. Measurement of the solar electron neutrino flux with the Homestake chlorine detector. Astrophys. J. 496:505–26.
Cline, D., F. Halzen, and J. Luthe. 1973. High-transverse-momentum secondaries and rising total cross sections in cosmic-ray interactions. Phys. Rev. Lett. 31:491–4. [doi: 10.1103/PhysRevLett.31.491]
Cline, D., F. Halzen, and M. Waldrop. 1973. Hadron collisions at high transverse momentum. Nucl. Phys. B 55:157–66. [doi: 10.1016/0550-3213(73)90415-X]
Close, Frank. 2010. Neutrino. Oxford: Oxford University Press.
Cockrell, William. 2009. A mysterious death at the South Pole. Men’s Journal. Dec 2009, Jan 2010 issue. http://www.mensjournal.com/magazine/a-mysterious-death-at-the-south-pole-20131125 (accessed October 21, 2016).
Compton, Arthur H. 1933. A geographic study of cosmic rays. Phys. Rev. 43:387–403.
Conversi, M., E. Pancini, and O. Piccioni. 1945. On the decay process of positive and negative mesons. Phys. Rev. 68:232.
________. 1946. Sull’assorbimento e sulla disintegrazione dei mesoni alla fine del loro percorso. Il Nuovo Cimento 3:372.
________. 1947. On the disintegration of negative mesons. Phys. Rev. 71:209–10. [doi: 10.1063/PT.3.3243]
Cousins, Robert D., and James B. Rosenzweig. 2016. David Bruce Cline (Obituary). Phys. Today 69:69–70.
Cowan, C. L., Jr. 1964. Anatomy of an experiment: An account of the discovery of the neutrino. Smithsonian Institution Annual Report, 409–30.
Cowan, C. L., Jr., F. Reines, F. B. Harrison, H. W. Kruse, and A. D. McGuire. 1956. Detection of the free neutrino: A confirmation. Science 124:103.
Cowan, C. L., H. Überall, and C. P Wang. 1966. Search for the intermediate boson in weak interactions. Il Nuovo Cimento A 44:526–9.
Croswell, Ken. 2015. How neutrinos saved your teeth from cavities. Science Web site, 11 September. http://news.sciencemag.org/chemistry/2015/09/how-neutrinos-saved-your-teeth-cavities (accessed September 20, 2015).
Curie, Irène, and Frédéric Joliot. 1934. Septieme conseil de physique Solvay 1933: Noyauz atomiques, 154. Paris: Gautier-Villars.
Danby, G., et al. 1962. Observation of high-energy neutrino reactions and the existence of two kinds of neutrinos. Phys. Rev. Lett. 9:36–44.
Davis, Howard F., and John G. Learned. 1973. Cosmic-ray muon integral intensity measurement under water. Phys. Rev. D 8:8–12.
Davis, Raymond, Jr. 1952. Nuclear recoil following neutrino emission from beryllium 7. Phys. Rev. 86:976–85.
________. 1955. Attempt to detect the antineutrinos from a nuclear reactor by the Cl37(ν, e–)A37 reaction. Phys. Rev. 97:766–9.
________. 1958. An attempt to observe the capture of reactor neutrinos in chlorine-37. Proc. First UNESCO Conf., Paris 1:728.
________. 1964. Solar neutrinos. II. Experimental. Phys. Rev. Lett. 12:303–5.
________. 2002. A half-century with solar neutrinos. Nobel lecture. http://nobelprize.org/nobel_prizes/physics/laureates/2002/davis-lecture.html (accessed June 2, 2011).
Davis, Raymond, Jr., D. S. Harmer, and K. C. Hoffman. 1968. A search for neutrinos from the Sun. Phys. Rev. Lett. 20:1205–09.
DeYoung, Tyce, et al. 1999. Search for neutrinos with the AMANDA-B10 string array—a first analysis of the 1997 data. AMANDA Internal Report 19990101, 8 January.
Dirac, P. A. M. 1927. The quantum theory of the emission and absorption of radiation. Proc. Roy. Soc. A 114:243.
________. 1928a. The quantum theory of the electron. Proc. Roy. Soc. A 117:610–24.
________. 1928b. The quantum theory of the electron. Part II. Proc. Roy. Soc. A 118:351–61.
________. 1931. Quantized singularities in the electromagnetic field. Proc. Roy. Soc. A 133:60. [doi: 10.1098/rspa.1931.0130]
________. 1977. In Charles Weiner, ed. History of Twentieth Century Physics. New York: Academic Press, 109.
Dumour, Earl. 1993. Interview with Arthur Roberts. Computer Music Journal 17:17–22 (Also http://www.haverford.edu/physics-astro/songs/roberts/roberts_interview.htm (accessed June 20, 2011).)
Einstein, Albert. 1922. Buchbesprechung: Pauli, W., jun. Relativitatstheorie. Naturwissenschaften 10:184.
Ellis, Charles Drummond, and William A. Wooster. 1927. Proc. Roy. Soc. A 117:109.
Enz, Charles P. 1973. W. Pauli’s scientific work. In J. Mehra, ed. Physicist’s conception of nature. Dordrecht-Holland: D. Reidel, 766–99.
________. 1981. 50 years ago Pauli invented the neutrino. Helv. Phys. Acta 54:411–8.
________. 1994. Wolfgang Pauli (1900–1958): A biographical introduction. In Pauli 1994.
________. 2000. Wolfgang Pauli’s 100th birthday. Europhys. News 31:12.
Evans, Christine. 2015. Save the Wisconsin Idea. New York Times, 16 February.
Fermi, Enrico. 1933. Tentativo di una teoria dell’emissione dei raggi β. (Tentative theory of beta rays) La Ricerca Scientifica 4:491–5.
________. 1934a. Tentativo di una teoria dei raggi β. Nuovo Cimento 11:1–19.
________. 1934b. Versuch einer Theorie der β-Strahlen. I. Z. Für Physik 88:161–71.
________. 1965. The Collected Papers of Enrico Fermi, Volume 2. Chicago: University of Chicago Press. Two volumes.
Fermi, Laura. 1954. Atoms in the family: My life with Enrico Fermi. Chicago: University of Chicago Press.
Fierz, Markus, and Victor Frederick Weisskopf, eds. 1960. Theoretical Physics in the twentieth century: A memorial volume to Wolfgang Pauli. New York: Interscience.
Fowler, W. A. 1958. Completion of the proton-proton reaction chain and the possibility of energetic neutrino emission by hot stars. Astrophys. J. 127:551–6.
Freese, Katherine. 1986. Can scalar neutrinos or massive Dirac neutrinos be the missing mass? Phys. Lett. 167B:295–300.
Friedman, J. I., and V. L. Telegdi. 1957. Nuclear emulsion evidence for parity nonconservation in the decay chain π+-μ+-e+. Phys. Rev. 105:1681.
Frost, Scott. 2006. Note on “Rememberi
ng Bruce Koci” Web page. http://icecube.wisc.edu/news/view/51 (accessed May 24, 2012).
Fukuda, Y., et al. (Super-Kamiokande Collaboration). 1998. Evidence for oscillation of atmospheric neutrinos. Phys. Rev. Lett. 81:1562–7. [doi: 10.1103/PhysRevLett.81.1562]
Gaisser, T. K., and F. Halzen. 1985. “Soft” hard scattering in the teraelectronvolt range. Phys. Rev. Lett. 54:1754. [doi: 10.1103/PhysRevLett.54.1754]
Gaisser, T. K., F. Halzen, and T. Stanev. 1995. Particle astrophysics with high-energy neutrinos. Phys. Rep. 258:173.
Galison, Peter. 1983. How the first neutral current experiments ended. Rev. Mod. Phys. 55:477–509.
Gamow, George. 1966. Thirty years that shook physics: The story of quantum theory. New York: Doubleday.
Ganugapati, Raghunath. 2008. Measurements of atmospheric muons using AMANDA with emphasis on the prompt component. Ph.D. thesis, University of Wisconsin–Madison.
Garwin, R. L., L. M. Lederman, and M. Weinreich. 1957. Observations of the failure of conservation of parity and charge conjugation in meson decays: The magnetic moment of the free muon. Phys. Rev. 105:1415.
Georgi, Howard, and Sheldon. L Glashow. 1974. Unity of all elementary-particle forces. Phys. Rev. Lett. 32:438–41.
Gershtein, S. S. 1997. Interesting recollections and reflections about Bruno Pontecorvo. In S. M. Bilenky, T. D. Blokhintseva, I. G. Pokrovskaya, and M. G. Sapozhnikov, eds. B. Pontecorvo, selected scientific works: Recollection on B. Pontecorvo. Bologna: Società Italiana di Fisica, Editrice Compositori, 440–54. (This seems to be identical to Gershtein, S. S. Recollections and reflections about Bruno Pontecorvo. http://pontecorvo.jinr.ru/gershtein.html (accessed March 10, 2011).)
Ginzburg, Vitalii L., et al. 1997. Georgii Timofeevich Zatsepin (on his eightieth birthday). Phys.-Usp. 40:547. [doi:0.1070/PU1997v040n05ABEH000241]
Goldhaber, M. 1974. Neutrinos—1974 (AIP Conf. Proc. No. 22). New York: American Institute of Physics.
Goldhaber, M., L. Grodzins, and A. W. Sunyar. 1958. Helicity of neutrinos. Phys. Rev. 109:1015.
Goldman, T. J., and D. A. Ross. 1979. A new estimate of the proton lifetime. Phys. Lett. B 84:208–10. [doi: 10.1016/0370-2693(79)90286-7]
Goudsmit, Samuel. A. 1932. In Convegno di fisica nucleare, October 1931, 41. Rome: Reale Accademia d’ Italia.
Gow, Anthony J., and T. Williamson. 1975. Cold Regions Research and Engineering Laboratory research report 339.
Greisen, K. 1960. Cosmic ray showers. Ann. Rev. Nucl. Sci. 10:63.
________. 1961. Possibility of high-energy neutrino measurements with cosmic rays. In Proc. Int. Conf. on Instrumentation for High-Energy Physics (1960). Berkeley: Interscience, 209–11.
Gribov, V., and B. Pontecorvo. 1969. Neutrino astronomy and lepton charge. Phys. Lett. 28B:493.
Grieder, P. K. F. (DUMAND Collaboration). 1995. DUMAND II: String 1 deployment, initial operation, results and system retrieval. Nucl. Phys. B (Proc. Suppl.) 43:145–8.
Griffiths, David. 2008. Introduction to Elementary Particles. 2nd ed. Weinheim: Wiley-VCH.
Gwynne, S. C. 2010. Empire of the summer moon: Quanah Parker and the rise and fall of the Comanches, the most powerful Indian tribe in American History. New York: Scribner.
Haidt, Dieter. 2006. The neutrino’s 50th birthday. In 3rd international workshop on NOVE: Neutrino oscillations in Venice: 50 years after the neutrino experimental discovery. Padova: Papergraf Spa.
Halzen, Francis. 1981. Prompt muons in very high-energy cosmic rays. In V. J. Stenger, ed. 1981. DUMAND 80: Proceedings. 2 vol. Honolulu: Hawaii DUMAND Center, 281–96.
________. 1995a. Ice fishing for neutrinos. http://icecube.berkeley.edu/amanda/ice-fishing.html (accessed April 3, 2012).
________. 1995b. The case for a kilometer-scale high-energy neutrino detector. In E. W. Kolb and R. Peccei, eds. 1995. Proceedings of the Snowmass ’94 Summer Study on Particle and Nuclear Astrophysics and Cosmology. Singapore: World Scientific, 256.
________. 1995c. The case for a kilometer-scale high-energy neutrino detector. In A. Dar, G. Eilam, and M. Gronau, eds. 1995. Neutrino 94. Proceedings, 16th international conference on neutrino physics and astrophysics, Eilat, Israel, May 29–June 3, 1994. (Nucl. Phys. Proc. Suppl. 38:472.)
________. 1996. The case for a kilometer-scale high energy neutrino detector. In Milla Baldo-Ceolin, ed. 1996. Proc. of the 7th international workshop on neutrino telescopes, Venice, Italy. Padua: University of Padua.
________. 1999. Antarctic dreams. The Sciences 39:19–24. [doi:10.1002/j.2326-1951.1999.tb03422.x]
________. 2009. IceCube: The rationale for kilometer-scale neutrino detectors. 21st Rencontres de Blois, “Windows on the Universe.” [arXiv:0910.0436 [astro-ph.HE]]
________. 2011. Sterile neutrinos and IceCube. From a talk given at NUFACT 11, the XIIIth Intl. workshop on neutrino factories, super beams and beta beams, 1–6 August 2011 at CERN and the University of Geneva. [arXiv:1111.0918v1 [hep-ph]]
________. 2015. Balzan Prize for astroparticle physics including neutrino and gamma-ray observation, acceptance speech, 13 November. http://www.balzan.org/en/prizewinners/francis-halzen/bern—13-11-2015-halzen (accessed August 12, 2016).
Halzen, Francis, et al. (AMANDA Collaboration). 1997. Status of the AMANDA South Pole neutrino detector. In H. V. Klapdor-Kleingrothaus, and Y. Ramachers, eds. Proc. of the international workshop on aspects of dark matter in astrophysics and particle physics. Heidelberg, Germany (1996). River Edge, NJ: World Scientific, 718–28. [arXiv:hep-ex/9611014v1]
Halzen, Francis, John Jacobsen, and Enrique Zas. 1994. Possibility that high-energy neutrino telescopes could detect supernovae. Phys. Rev. D 49:1758–61. [doi: 10.1103/PhysRevD.49.1758]
________. 1996. Ultratransparent Antarctic ice as a supernova detector. Phys. Rev. D 53:7359–61.
Halzen, Francis, and Spencer R. Klein. 2010. IceCube: An instrument for neutrino astronomy. Rev. Sci. Instrum. 81:081101. [doi:10.1063/1.3480478]
Halzen, Francis, and John Learned. 1988. High energy neutrino detection in deep polar ice. In M. Giler, ed. 1989. Proceedings of the 5th international symposium on very high energy cosmic ray interactions, Lodz, Poland (1988). Lodz: University of Lodz, 90. (University of Wisconsin preprint MAD/PH/428.)
Halzen, Francis, John Learned, and Todor Stanev. 1990. Neutrino astronomy. In Mullan et al. 1990, 39–51.
Halzen, Francis, and Christopher Michael. 1971. Amplitude analysis of πN scattering at 6 GeV/c. Phys. Lett. B 36:367. [doi:10.1016/0370-2693(71)90727-1]
Halzen, Francis, R. A. Vazquez, T. Stanev, and H. P. Vankov. 1994. The highest energy cosmic ray. Talk presented by F. Halzen at the 6th International Symposium on Neutrino Telescopes, Venice, Feb. 1994. MAD-PH-832, C94-02-22. Also published in 1995: Astropart. Phys. 3:151–6.
Halzen, Francis, and Logan Wille. 2016. On the charm contribution to the atmospheric neutrino flux. Phys. Rev. D 94:014014. [doi:10.1103/PhysRevD.94.014014] [arXiv:1605.01409 [hep-ph]]
Halzen, Francis, E. Zas, and T. Stanev. 1991. Radiodetection of cosmic neutrinos: A numerical, real time analysis. Phys. Lett. B 257:432–6. (University of Wisconsin preprint MAD/PH/606, Nov. 1990.)
Hartmann, Dieter H. 2011. A multi-messenger story. Nature 475:303–4.
Haverford College. 2002. Songs from 1947 by Arthur Roberts. http://www.haverford.edu/physics-astro/songs/roberts/roberts1947.htm (accessed June 17, 2011).
Heitler, W., and G. Herzberg. 1929. Die Naturwissenschaften 17:673.
Henderson, W. J. 1934. The upper limits of the continuous β-ray spectra of thorium C and C´´. Proc. Roy. Soc. A 147:572–82. [doi:10.1098/rspa.1934.0237]
Hernandez, Daniela. 2016. Phantom particles that would have redefined physics probably aren’t real, scientists conclude. Wall Street Journal, 8 August.
Herzog, Werner, director. 2007. Encounters at the end of the world, DVD. Silver Spring: Discovery Films.
Hincks, E. P., and B. Pontecorvo. 1948a. Search for gamma-radiation in the 2.2-microsecond meson decay process. Phys. Rev. 73:257–8.
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________. 1948b. On the stability of the neutral meson. Phys. Rev. 73:1122–3.
________. 1949. The penetration of μ-meson decay electrons and their bremsstrahlung radiation. Phys. Rev. 75:698–9.
________. 1950a. Can. J. Res. 28A:29.
________. 1950b. On the disintegration products of the 2.2-μsec. meson. Phys. Rev. 77:102–20.
Hirata, K. S., et al. (Kamiokande II Collaboration). 1987. Observation of a neutrino burst from the supernova SN1987A. Phys. Rev. Lett. 58:1490–93.
________. 1988. Observation in the Kamiokande-II detector of the neutrino burst from supernova SN 1987a. Phys. Rev. D 38:448–58.
Holmgren, H. D., and R. L. Johnston. 1958. H3(α, γ)Li7 and He3(α, γ)Be7 reactions. Phys. Rev. 113:1556–9.
Holton, Gerald. 1977. Fermi’s group and the recapture of Italy’s place in physics. In Gerald Holton, ed. The Scientific Imagination. Cambridge: Cambridge University Press.
Hoyle, Fred. 1967. Concluding remarks. Proc. Roy. Soc. A 301:171.
Hulth, Per Olof, et al. (AMANDA Collaboration). 1997. The AMANDA experiment. In Kari Enqvist, Katri Huitu, and Jukka Maalampi, eds. 1997. NEUTRINO ’96: Proceedings of the 17th international conference on neutrino physics and astrophysics (Helsinki, Finland, June 13–20, 1996). River Edge, New Jersey: World Scientific, 518–23. [arXiv:astro-ph/9612068]
Huntford, Roland. 1999. The last place on earth. New York: Random House, Modern Library.
Hutchison, Kristan. 2001. Causes for the common crud. The Antarctic Sun, 18 November.
IceCube-Gen2 Collaboration. 2016. PINGU: A vision for neutrino and particle physics at the South Pole. [arXiv:1607.02671 [hep-ex]]
INR (Institute for Nuclear Research, Russian Academy of Sciences). 1997. Baksan Neutrino Observatory (a brochure).
Iwanenko, Dmitrij. 1932. Comptes Rendus 195:439.
Jacobsen, John E. 1996a. A first look at νμ candidates in AMANDA-B. AMANDA internal memo, 8 July.
Jacobsen, John E. 1996b. Simulating the detection of muons and neutrinos in deep Antarctic ice. Ph.D. thesis, University of Wisconsin–Madison.
Janka, H.-Th., et al. 2007. Theory of core-collapse supernovae. Phys. Rep. 442:38–74.
Jayawardhana, Ray. 2013. Neutrino Hunters: The thrilling chase for a ghostly particle to unlock the secrets of the universe. New York: Scientific American/Farrar, Straus and Giroux.