martes, 11 de agosto de 2009

Bibliografía

Libros y referencias de consulta


Abramowitz, Milton; y Stegun, Irene, Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables, Dover Publications, 1972. (Esta referencia de consulta se puede descargar gratuitamente de varios sitios a través de Internet).

Afriat, Alexander; y Selleri, Franco, The Einstein, Podolsky and Rosen Paradox in Atomic, Nuclear, and Particle Physics, Springer, 1998.

Aharonov, Yakir; y Bohm, David, “Significance of electromagnetic potentials in quantum theory”, Physical Review vol. 115, 1959.

Aitchison, Ian J. R.; MacManus, David A., y Snyder, Thomas M., “Understanding Heisenberg's ‘Magical Paper’ of July 1925: a New Look at the Calculational Details”, arXiv, http://arxiv.org/abs/quant-ph/0404009, 1 de abril de 2004.

Aivazis, Michael; y Tung, Wu-Ki, Group Theory in Physics: Problems and Solutions, World Scientific, 1990.

Akhiezer, Naum Il'ich; Glazman, Izrail' Markovich, Theory of Linear Operators in Hilbert Space (dos volumenes en uno), Courier Dover Publications, 1993.

Akitt, James Wells, NMR and Chemistry: An Introduction to Modern NMR Spectroscopy, (segunda edición), Chapman and Hall, 1983.

Alber, Gernot; y Zoller, Peter, “Laser excitation of electronic wave packets in Rydberg atoms”, Phys. Rep. 199, 231, 1991.

Amrein, Werner O.; Jauch, Josef Maria; y Sinha, Kalyan B., Scattering Theory in Quantum Mechanics: Physical Principles and Mathematical Methods, W. A. Benjamin Advanced Book Program, 1977.

Andrew, Edward Raymond; Bradbury, A.; y Eades, R. G., (1958). “Nuclear magnetic resonance spectra from a crystal rotated at high speed”, Nature, vol. 182, 1958.

Andrews, George E.; Askey, Richard, y Roy, Ranjan, Special Functions, Cambridge University Press, 1999.

Arfken, George B., Mathematical Methods for Physicists (tercera edición), Academic Press, 1985.

Arnold, James T.; Dharmatti, Shrinivas; y Packard, Martin E., “Chemical effects on nuclear induction signals from organic compounds”, Journal of Chemical Physics, vol. 19, 1951.

Artolazabal, Óscar Ecenarro, Mecánica y ondas: Problemas de examen resueltos y comentados, Universidad del País Vasco, 2000.

Askey, Richard, Orthogonal polynomials and special functions, Society for Industrial and Applied Mathematics (SIAM), 1975.

Atkins, Peter; y Friedman, Ronald, Molecular Quantum Mechanics (cuarta edición), Oxford University Press, 2005.

Auletta, Gennaro; y Parisi, Giorgio, Foundations and Interpretation of Quantum Mechanics: In the Light of a Critical-Historical Analysis and of a Synthesis of the Results, World Scientific Publishing, 2000.

Auletta, Gennaro; Fortunato, Mauro; y Parisi, Giorgio, Quantum Mechanics, Cambridge University Press, 2009.

Averitt, Richard D., “Symmetry breaking transitions: Dynamics of broken symmetry”, Nature Physics, vol. 6, 22 de agosto de 2010.

Bahcall, John N., “Solar Neutrinos. I. Theoretical”, Physical Review Letters, vol. 12, 1964. 

Balcar, Edwin; y Lovesey, Stephen W., Introduction to the Graphical Theory of Angular Momentum, Springer, 2009.

Ballentine, Leslie E., Quantum Mechanics: A Modern Development, World Scientific, 1998.

Band, William, An Introduction to Quantum Statistics, Van Nostrand, 1955.

Bandyopadhyay, Supriyo; y Cahay, Marc, Introduction to Spintronics, CRC Press, 2008.

Barrow, Gordon M., The Structure of Molecules, W. A. Benjamin, 1963.

Basdevant, Jean-Louis; y Dalibard, Jean, The Quantum Mechanics Solver: How to Apply Quantum Theory to Modern Physics (segunda edición), Springer, 2006.

Bayfield, James E., Quantum Evolution: An introduction to time-dependent quantum mechanics, Wiley-Interscience, agosto de 1999.

Baym, Gordon, Lectures on Quantum Mechanics, Westview Press, 1974.

Beiser, Arthur, Concepts of Modern Physics (quinta edición), McGraw-Hill, 1995.

Beiser, Arthur, Perspectives of Modern Physics, McGraw-Hill, 1969

Belkik, Dzevad, Principles of Quantum Scattering Theory, Taylor & Francis, 2003.

Belloni, Mario; Christian, Wolfgang; y Cox, Anne J., Physlet Quantum Physics, Addison-Wesley, 2005.

Bershon, M.; y Baird, J. C., An Introduction to Electron Paramagnetic Resonance, Benjamin, 1966.

Bhagavantam, Suri; y Rayudu, Venkata T., Theory of Groups and its Application to Physical Problems, Academic Press, 1969.

Biedenharn, Lawrence C.; y Louck, James D., Angular Momentum in Quantum Physics, Addison-Wesley, 1981.

Blackman, Moses, Handbuch der Physik, Springer-Verlag, 1955.

Blank, Jirí; Exner, Pavel; y Havlícek, Miloslav, Hilbert Space Operators in Quantum Physics (segunda edición), Springer, 2008.

Blum, Karl, Density Matrix Theory and Applications (segunda edición), Springer, 1996.

Bloch, Félix, “Nuclear Induction”, Physical Review, vol. 70, 1946.

Bogolyubov, Nikolay N.; y Bogolyubov Jr., Nikolay N., Introduction to Quantum Statistical Mechanics (segunda edición), Gordon and Breach, 1992.

Bohm, David, Quantum Theory, Dover Publications, 1989.

Bohm, Arno; Mostafazadeh, Ali; Koizumi, Hiroyasu; y Zwanziger, Josef W., The Geometric Phase in Quantum Systems: Foundations, Mathematical Concepts, and Applications in Molecular and Condensed Matter Physics, Springer, 2003.

Bohr, Niels, “On the Constitution of Atoms and Molecules”, Phil. Mag. 26, 1, 1913.

Bohr, Niels, “The Quantum Postulate and the Recent Development of Atomic Theory”, Nature 121, 1928.

Born, Max, Atomic Physics (fifth edition), Blackie and Son, Ltd., 1952.

Born, Max, The Statistical Interpretation of Quantum Mechanics, Nobel Lecture, 11 de diciembre de 1954.

Born, Max; y Jordan, Pascual, “Zur Quantenemechanik”, Zeitschrift fur Physik 34, 1925.

Bowles, Thomas J., “Quantum Effect of Gravity”, Nature, vol. 415, 2002.

Bowman, Gary E., Essential Quantum Mechanics, Oxford University Press, 2008.

Brandt, Siegmund; Dahmen, Hans Dieter, y Stroh, Tilo, Interactive Quantum Mechanics (libro con disco compacto CD), Springer, 2003.

Bransden, B. H., y Joachain, C. J., Quantum Mechanics (segunda edición), Benjamin Cummings, 2000.

Breuer, Heinz-Peter; y Petruccione, Francesco, The Theory of Open Quantum Systems, Oxford University Press, 2002.

Brillouin, Léon, Les Statistiques Quantiques Et Leurs Applications (dos volúmenes), Presse Universitaires de France, 1930.

Brillouin, Léon, La Théorie des Quanta et l'Atome de Bohr, Presse Universitaires de France, 1931.

Brode, Robert B., “The Quantitative study of the Collisions of Electrons with Atoms”, Rev. Mod. Physics 5, 257-279, 1933.

Budak, B.M.; Samarski, A.A.; y Tijonov, A.N.; Problemas de la física matemática (volumen 1), Editorial MIR, 1984.

Budak, B.M.; Samarski, A.A.; y Tijonov, A.N.; Problemas de la física matemática (volumen 2), McGraw-Hill, 1992.

Budker, Dmitry; Kimball, Derek; y DeMille, David, Atomic Physics: An Exploration through Problems and Solutions, Oxford University Press, 2008.

Burkhardt, Charles E., y Leventhal, Jacob J., Foundations of Quantum Physics, Springer, 2008.

Capri, Anton Z., Nonrelativistic Quantum Mechanics (tercera edición), World Scientific Publishing Company, 2002.

Capri, Anton Z., Problems and Solutions in Nonrelativistic Quantum Mechanics, World Scientific Publishing Company, 2003.

Cassidy, David C., “A Historical Perspective on Copenhagen”, Physics Today, p. 28, julio de 2000.

Christian, Wolfgang, Open Source Physics: A User’s Guide with Examples, Addison-Wesley, 2006.

Christian, Wolfgang; y Esquembre, Francisco, “Modeling Physics with Easy Java Simulations”, The Physics Teacher, volumen 45, ejemplar 8, noviembre de 2007.

Chruscinski, Dariusz; y Jamiolkowski, Andrzej, Geometric Phases in Classical and Quantum Mechanics, Birkhäuser, 2004.

Clausius, Rudolf Julius Emanuel, “On a Mechanical Theorem Applicable to Heat”, Philosophical Magazine, Ser. 4 40: 122–127, 1870.

Cohen-Tannoudji, Claude; Diu, Bernard, y Laloe, Frank, Quantum Mechanics (volúmenes 1 y 2), Wiley-Interscience, 2006.

Companion, Audrey L., Chemical Bonding, McGraw-Hill, 1964.

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Condon, Edward Uhler; y Shortley, George H., The Theory of Atomic Spectra, Cambridge University Press, 1970.

Cornwell, John F., Group theory in physics: an introduction, Academic Press, 1997.

Crane, Horace Richard, “How we happended to measure g-2: A tale of serindipity”, Physics in Perspective, volumen 2, número 2, 2000.

Crane, Horace Richard; y Wilkinson, David T., “Precision measuremente of the g-factor of the free electron”, Physical Review, vol. 130, 1963.

Darrigol, Olivier, From c-Numbers to q-Numbers: The Classical Analogy in the History of Quantum Theory, University of California Press, 1992. http://ark.cdlib.org/ark:/13030/ft4t1nb2gv/.

Das, Ashok; y Ferbel, Thomas, Introduction to Nuclear and Particle Physics, Wiley, 1994.

Davisson, Clinton; y Germer, Lester H., “Diffraction of Electrons by a Crystal of Nickel”, Physical Review 30, 705, 1927.

de Broglie, Louis, “A Tentative Theory of Light Quanta”, Phil. Mag. 47, 446, 1926.

de Broglie, Louis, “Recherches sur la Theorie des Quanta”, Tesis Doctoral, París, 1924.

Debye, Peter, “Zur Theorie der spezifischen Wärmen”, Annalen der Physik, 39 (4), 1912.

Dicke, Robert H.; y Wittke, James P., Introduction to Quantum Mechanics, Addison-Wesley Publishing Company, 1960.

Duer, Melinda J., Introduction to Solid-State NMR Spectroscopy, WileyIndia, 2010.

Dürr, Stephan, “Angular uncertainty passes test”, Physics World, octubre de 2004.

Dyall, Kenneth G.; y Faegri Jr., Knut, Introduction to Relativistic Quantum Chemistry, Oxford University Press, 2007.

Eden, R. J.; Landshoff, P. V.; Olive, D. I.; y Polkinghorne, J. C., The Analytic S-Matrix, Cambridge University Press, 2002.

Edmonds, A. R., Angular Momentum in Quantum Mechanics, Princeton, New Jersey, 1957.

Einstein, Albert; Podolsky, Boris; y Rosen, Nathan, “Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?”, Physical Review, vol. 47, 1935.

Eisberg, Robert; y Resnick, Robert, Física cuántica: Átomos, moléculas, sólidos, núcleos y partículas, Limusa, 1991.

Esquembre, Francisco , “Easy Java Simulations: a software tool to create scientific simulations in Java”, Computer Physics Communications, volumen 156, ejemplar 2, 1 de enero de 2004.

Esquembre, Francisco; Martín, Ernesto; Christian, Wolfgang; y Belloni, Mario, Fislets: Enseñanza de la Física con Material Interactivo (incluye CD-ROM), Prentice-Hall, 2004.

Dirac, Paul Adrien Maurice, Quantum Mechanics (cuarta edición), Oxford University Press, 1958.

Duncan, Anthony; y Janssen, Michel, On the verge of Umdeutung in Minnesota: Van Vleck and the correspondence principle (primera parte), arXiv, http://arxiv.org/abs/physics/0610192, 23 de octubre de 2006.

Duncan, Anthony; y Janssen, Michel, “On the verge of Umdeutung in Minnesota: Van Vleck and the correspondence principle” (segunda parte), arXiv, http://arxiv.org/abs/physics/0610193, 23 de octubre de 2006.

Einstein, Albert, “Die Plancksche Theorie der Strahlung und die Theorie der spezifischen Wärme”, Annalen der Physik, 22, 1907.

Eisberg, Robert M., Applied Mathematical Physics with Programmable Pocket Calculators, McGraw-Hill, 1976.

Eisberg, Robert; y Resnick, Robert, Quantum Physics of Atoms, Molecules, Solids, Nuclei and Particles, Wiley, 1985.

Epstein, Paul Sophus, “The Stark Effect from the Point of View of Schroedinger's Quantum Theory”, Physical Review, vol 28, 1926.

Esquembre, Francisco , "Easy Java Simulations: a software tool to create scientific simulations in Java", Computer Physics Communications, volumen 156, ejemplar 2, 1 de enero de 2004.

Faria, A. J.; Franca, H. M.; Malta, C. P.; y Sponchiado, R. C., “Critical assessment of the Schrodinger picture of quantum mechanics”, Phys. Lett. A, vol. 305, 2002.

Faria, A. J.; Franca, H. M.; Gomes, G. G.; y Sponchiado, R. C., “The vacuum electromagnetic fields and the Schrodinger picture”, arXiv, http://arxiv.org/abs/quant-ph/0510134, 17 de abril de 2006.

Fayer, Michael D., Absolutely Small: How Quantum Theory Explains Our Everyday World, AMACOM, 2010.

Fayer, Michael D., Elements of Quantum Mechanics, Oxford University Press, 2001.

Feagin, James M., Quantum Methods with Mathematica (segunda edición), Springer-Verlag, 2006.

Ferry, David K., Quantum Mechanics: An introduction for device physicists and electrical engineers (segunda edición), Taylor & Francis, 1 de enero de 2001.

Feynman, Richard Phillips, Quantum Electrodynamics, Westview Press, 1998.

Flügge, Siegfried, Practical Quantum Mechanics, Springer, 1999.

Foot, Christoper J., Atomic Physics (Oxford Master Series in Atomic, Optical and Laser Physics), Oxford University Press, 2005.

Franck, James, “Elementary processes of photochemical reactions”, Transactions of the Faraday Society, vol. 21, 1926.

Fray, Sebastian; Alvarez Diez, Cristina; Hansch, Theodor; y Weitz, Martin, “Atomic Interferometer with Amplitude Gratings of Light and its Applications to Atom Based Tests of the Equivalence Principle”, arXiv, http://arxiv.org/abs/physics/0411052v2, 5 de noviembre de 2004.

Freeman, Ray, Spin Choreography: Basic Steps in High Resolution NMR, Oxford University Press, 1999.

Freyberger, M.; Bardroff, P.; Leichtle C.; Schrade G; y Schleich W. P., "The art of measuring quantum states", Physics World, noviembre de 1997.

Frost, Arthur A.; Musulin, Boris, “Mnemonic device for molecular-orbital energies”, Journal of Chemical Physics, vol. 21, 1953.

Galindo, Alberto; y Pascual, Pedro, Mecánica Cuántica, Editorial Alhambra, 1978.

Gamow, George, Thirty Years that Shook Physics: The Story of Quantum Theory, Dover Publications, 1985.

Gasiorowicz, Stephen, Quantum Physics (tercera edición), John Wiley & Sons, 2003.

Gazeau, Jean-Pierre, Coherent States in Quantum Physics, Wiley-VCH, 2009.

Gea-Banacloche, J., “A Quantum Bouncing Ball”, American Journal of Physics, vol. 67, 1999.

Gell-Mann, Murray; y Ne’eman, Yuval, The Eightfold Way, Benjamin, 1965.

Gerritsma, Rene; Kirchmair, Gerhard; Zähringer, Florian; Solano, E.; Blatt, R.; y Roos, C. F., “Quantum simulation of the Dirac equation”, Nature, vol. 463, 7 de junio de 2010.

Georgi, Howard, “Unification and Particle Physics”, en Quarks, Quasars and Quandries, (editor G. Aubrecht), American Association of Physics Teachers, 1987.

Gibbs, William R., Computation in Modern Physics (tercera edición), World Scientific Publising Company, 2006.

Gilmore, Robert, Lie Groups, Lie Algebras, and Some of Their Applications, Dover Publications, 2006.

Glauber, Roy Jay, Quantum Theory of Optical Coherence: Selected Papers and Lectures, Wiley-VCH, Weinheim, 2007.

Goldberger, Marvin L.; y Watson, Kenneth M.; Collision Theory, Dover Publications, 2004.

Goswami, Amit, Quantum Mechanics, Waveland Press Inc. (segunda edición), 2003.

Gough, Douglas O., “An Elementary Introduction to the JWKB Approximation”, arXiv, http://arxiv.org/abs/astro-ph/0702201, 8 de febrero de 2007.

Götte, Jörg B.; y Barnett, Stephen M., The Angular Momentum of Light, Cambridge University Press, 2012.

Gould, Harvey; Tobochnik, Jan; y Christian, Wolfgang, An Introduction to Computer Simulation Methods: Applications to Physical Systems (tercera edición), Addison-Wesley, 2006.

Greenberger, Daniel M.; y Overhauser, A. W., “Coherence effects in neutron diffracion and gravity experiments”, Reviews of Modern Physics 51, 43, 1979.

Greiner, Walter; y Müller, Berndt, Quantum Mechanics: Symmetries, Springer-Verlag, 1994.

Greiner, Walter; y Reinhardt, Joachim, Field Quantization, Springer-Verlag, 1996.

Greiner, Walter; y Reinhardt, Joachim, Quantum Electrodynamics, Springer-Verlag, 1994.

Griffiths, David J., Introduction to Quantum Mechanics (segunda edición), Benjamin Cummings, 2004.

Gutowsky, Herbert Sander; y McCall. David W., “Nuclear Magnetic Resonance Fine Structure in Liquids”, Physical Review, vol. 82, 1951.

Fayer, Michael D., Absolutely Small: How Quantum Theory Explains Our Everyday World, AMACOM, 2010.

Fraser, Gordon (editor), The New Physics for the Twenty-First Century (segunda edición), Cambridge University Press, 2006.

Friedrich, Harald, Theoretical Atomic Physics, Birkhauser, 2006.

Hagelstein, Peter L.; Senturia, Stephen D.; y Orlando, Terry P., Introductory Applied Quantum and Statistical Mechanics, Wiley-Interscience, 2004.

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Haken, Hermann; y Wolf, Hans Christolph, The Physics of Atoms and Quanta (quinta edición), Springer-Verlag, 1996.

Hall, Henry E.; y Vinen, W. F., “The rotation of liquid helium II”, Proc. Roy. Soc., A238, 204, 215, 1956.

Haroche, Serge; y Raimond, Jean-Michel, Atoms, Cavities and Photons (Oxford Graduate Texts), Oxford University Press, 2006.

Harrison, Paul, Quantum Wells, Wires and Dots (segunda edición), John Wiley & Sons, 2006.

Harrison, Walter A., Applied Quantum Mechanics, World Scientific Publishing Company, 2000.

Heitler, Walter; y London, Fritz Wolfgang, “Wechselwirkung neutraler Atome und homöopolare Bindung nach der Quantenmechanik”, Zeitschrift für Physik, vol. 44, 1927.

Heitler, Walter, The Quantum Theory of Radiation (tercera edición), Dover Publications, 2010.

Herzberg, Gerhard, Atomic Spectra and Atomic Structure, New York: Dover, 1945.

Hildebrand, Francis Begnaud, Introduction to Numerical Analysis, McGraw-Hill, 1974.

Holland, Peter R., The Quantum Theory of Motion, Cambridge University Press, 1993.

Hornbeck, Robert, Numerical Methods, Quantum, 1975.

Hund, Friedrich, The History of Quantum Mechanics, Harper and Row, 1974.

Jaffe, Bernard, Moseley and the Numbering of the Elements, Anchor Books, 1971.

Jammer, Max, The Conceptual Development of Quantum Mechanics, McGraw-Hill, 1966.

Jordan, Thomas F., Quantum Mechanics in Simple Matrix Form, John Wiley & Sons, 1986.

Joshi, A. W., Matrices and tensors in physics, New Age International, 1995.

Kadanoff, Leo P.; y Baym, Gordon, Quantum Statistical Mechanics, Westview Press, 1994.

Karplus, Martin, “Contact Electron-Spin Coupling of Nuclear Magnetic Moments”, Journal of Chemical Physics, 1959.

Karr, William A.; Jamell, Christoper R.; y Joglekar, Yogesh N., “Numerical approach to the Schrodinger equation in momentum space”, arXiv, http://arxiv.org/abs/0910.0574, 2 de diciembre de 2009.

Keller, Alex, Infancy of Atomic Physics: Hercules in His Cradle, Oxford, Clarendon Press, 1983.

Khare, Stya P., Introduction to the Theory of Collisions of Electrons with Atoms and Molecules, Springer, 2002.

Kirillov, Alexandre Aleksandrovich, Éléments de la Théorie des Représentations, Ediciones MIR, 1974.

Kobayashi, Makoto; y Maskawa, Toshihide, “Proposal of a Novel CP-Violation Mechanism Predicting Six Flavors of Quarks: CP-Violation in the Renormalizable Theory of Weak Interaction”, Progress of Theoretical Physics, vol. 49, 1973.

Kolokolov, I.V.; Kuznetsov, E.A.; Milshtein, A.I.; Podivilov, E.V.; Chernij, A.I.; Shapiro, D.A.; Shapiro, E.G., Problemas resueltos de métodos matemáticos de la física, Editorial URSS, 2003.

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Kramers, Hendrik A., “Intensities of Spectral Lines. On the Application of the Quantum Theory to the Problem of Relative Intensities of the Components of the Fine Structure and of the Stark Effect of the Lines of the Hydrogen Spectrum”, p. 287 , Academia Real Danesa, 1919.

Kramers, Hendrik A., “Über den Einfluß eines elektrischen Feldes auf die Feinstruktur der Wasserstofflinien” (Sobre la influencia de un campo eléctrico en la estructura fina de las líneas del hidrógeno), Zeitschrift für Physik, vol. 3, 1920.

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Landé, Alfred, Quantum Mechanics, Cambridge University Press, 1951.

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Leinass, Jon Magne; y Osnes, Eivind, “Application of the Borel Method of Summation to a Quantum Mechanical Model Problem”, Physica Scripta, vol. 22, 1980.

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Maas, Werner E.; Laukien, Frank H., y Cory, David G., “Gradient, high resolution, magic angle sample spinning NMR”, Journal of the American Chemical Society, vol. 118, 13085–6, 1996.

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Meijer, Paul Herman Ernst; y Bauer, Edmond, Group theory: The application to quantum mechanics, Dover, 2004.

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Nayfeh, Ali Hasan, Introduction to Perturbation Techniques, Wiley-Interscience, 1981.

Nayfeh, Ali Hasan, Perturbation Methods, Wiley-Interscience, 1973.

Nesvizhevsky, Valery V.; Börner, Hans G.; Petukhov, Alexander K. Petukhov; Abele, Hartmut; Baeßler, Stefan; Rueß, Frank J., Stöferle, Thilo; Westphal, Alexander; Gagarski, Alexei M.; Petrov, Guennady A.; y Strelkov, Alexander V. Strelkov, “Quantum States of Neutrons in the Earths's Gravitational Field”, Nature, vol. 415, 2002.

Neumann, John von, Mathematische Grundlagen der Quantenmechanik, Springer, 1995.

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Ni, Guang-jiong; y Chen, Su-qing, Advanced Quantum Mechanics, Rinton Press, 2003.

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Odom, Brian; Hanneke, David; D'Urso, Brian R.; y Gabrielse, Gerald, “New measurement of the electron magnetic moment using a one-electron quantum cyclotron”, Physical Review Letters, vol. 97, 2006.

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Park, David, Introduction to the Quantum Theory (tercera edición), Dover Publications, 2005.

Pauli, Wolfgang, “Über dass Wasserstoffspektrum vom Standpunkt der neuen Quantenmechanik” (Sobre el espectro del hidrógeno desde el punto de vista de la nueva mecánica cuántica), Zeitschrift für Physik, vol. 36, 1926.

Pauli, Wolfgang, Die allgemeinen Prinzipien der Wellenmechanik, J. W. Edwards, 1947.

Pauling, Linus, “The Nature of the Chemical Bond. Application of results obtained from the Quantum Mechanics and from a Theory of Paramagnetic Susceptibility to the Structure of Molecules”, Journal of the American Chemical Society, vol. 53, abril de 1931.

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