Field Theory

References

[1-1]

Lectures on QED and QCD, Andrey Grozin, arXiv:hep-ph/0508242, 2005.

[1-2]

Relativistic Quantum Dynamics: A non-traditional perspective on space, time, particles, fields, and action-at-a-distance, Eugene V. Stefanovich, arXiv:physics/0504062, 2005.

[1-3]

A first book of quantum field theory, A. Lahiri, P.B. Pal, Alpha Science International, Ltd, 2005.

[1-4]

Particle Physics Lecture Notes - 2005, Paolo Franzini, 2005. http://www.lnf.infn.it/~paolo/.

[1-5]

A Modern introduction to quantum field theory, Maggiore, Michele, Oxford University Press, 2004. http://www.oup.com/uk/catalogue/?ci=9780198520740.

[1-6]

Gauge Theories in Particle Physics: A Practical Introduction. Vol. 1: From Relativistic Quantum Mechanics to QED, Aitchison, I. J. R., Hey, A. J. G., IOP, 2003.

[1-7]

CP violation, Bigi, Ikaros I. Y., Sanda, A. I., Camb. Monogr. Part. Phys. Nucl. Phys. Cosmol. 9 (2000) 1-382.

[1-8]

Fields, Siegel, Warren, arXiv:hep-th/9912205, 1999.

[1-9]

Elementary Particles and their Interactions: Concepts and Phenomena, Quang, Ho-Kim, Pham, Xuan-Yem, Springer-Verlag, 1998.

[1-10]

An Introduction to Gauge Theories and Modern Particle Physics. Vol. 2: CP Violation, QCD and Hard Processes, Leader, E., Predazzi, E., Camb. Monogr. Part. Phys. Nucl. Phys. Cosmol. 4 (1996) 1-431.

[1-11]

An Introduction to Gauge Theories and Modern Particle Physics. Vol. 1: Electroweak Interactions, the New Particles and the Parton Model, Leader, E., Predazzi, E., Camb. Monogr. Part. Phys. Nucl. Phys. Cosmol. 3 (1996) 1.

[1-12]

A Modern Introduction to Particle Physics, Fayyazuddin,, Riazuddin,, World Scientific, 1994.

[1-13]

ELementary Particle Physics: Concepts and Phenomena, Nachtmann, O., Springer-Verlag, 1990.

[1-14]

PCT, Spin and Statistics, and All That, Streater, R. F., Wightman, A. S., Addison-Wesley, 1989. Advanced Book Classics.

[1-15]

Gauge Field Theories, Pokorski, S., Cambridge University Press, 1987.

[1-16]

Quantum Field Theory, Ryder, L. H., Cambridge University Press, 1985.

[1-17]

Gauge Theory of Elementary Particle Physics, Cheng, T. P., Li, L. F., Oxford University Press, 1984.

[1-18]

Quantum Field Theory, Itzykson, C., Zuber, J. B., McGraw-Hill, 1980. International Series In Pure and Applied Physics.

[1-19]

An Introduction to Relativistic Quantum Field Theory, Silvan S. Schweber, Harper & Row, 1962.

[2-1]

Pinch Technique: Theory and Applications, D. Binosi, J. Papavassiliou, Phys. Rept. 479 (2009) 1-152, arXiv:0909.2536.

[2-2]

A direct road to Majorana fields, Aste, Andreas, arXiv:0806.1690, 2008.

[2-3]

Elements of Group Theory, F. J. Yndurain, arXiv:0710.0468, 2007. lecture notes.

[2-4]

Quantum field theory in curved spacetime, Bernard S. Kay, arXiv:gr-qc/0601008, 2006. Encyclopedia of Mathematical Physics.

[2-5]

Scattering in Relativistic Quantum Field Theory: Fundamental Concepts and Tools, Detlev Buchholz, Stephen J. Summers, arXiv:math-ph/0509047, 2005.

[2-6]

Effective field theories, Ecker, G., arXiv:hep-ph/0507056, 2005.

[2-7]

Bosons and fermions in external fields, Edwin Langmann, arXiv:math-ph/0507029, 2005. Encyclopedia of Mathematical Physics, Elsevier, 2006.

[2-8]

Topological Concepts in Gauge Theories, Frieder Lenz, Lect. Notes Phys. 659 (2005) 7, arXiv:hep-th/0403286.

[2-9]

2004 Review of Light Cone Field Theory, Leonard S. Kisslinger, Int. J. Mod. Phys. E13 (2004) 375, arXiv:hep-ph/0401248.

[2-10]

Symmetries in QFT, K. M. Hamilton, J. F. Wheater, arXiv:hep-ph/0310065, 2003.

[2-11]

Noncommutative field theory, Douglas, Michael R., Nekrasov, Nikita A., Rev. Mod. Phys. 73 (2001) 977.

[2-12]

Grand unified theories and proton decay, Langacker, Paul, Phys. Rep. 72 (1981) 185.

[2-13]

Introduction to the Yang-Mills quantum theory, Jackiw, R., Rev. Mod. Phys. 52 (1980) 661.

[2-14]

Gauge Theories, Abers, E. S., Lee, B. W., Phys. Rep. 9 (1973) 1-141.

[3-1]

Effective theories of electroweak symmetry breaking, Gino Isidori, arXiv:0911.3219, 2009. 6th International Workshop on Chiral Dynamics, CD09, July 6-10, 2009, Bern, Switzerland.

[3-2]

A Pedagogical Review of Electroweak Symmetry Breaking Scenarios, Gautam Bhattacharyya, arXiv:0910.5095, 2009.

[3-3]

Introduction to effective field theories. 1. Heisenberg-Euler effective theory, decoupling of heavy flavours, A. G. Grozin, arXiv:0908.4392, 2009. Helmholtz International School-Workshop 'Calculations for modern and future colliders', Dubna, July 10-20, 2009.

[3-4]

Topology and confinement, Dmitri Diakonov, arXiv:0906.2456, 2009. ITEP Winter School (February 2009, Moscow) and Schladming Winter School (March 2009, Schladming, Austria).

[3-5]

Introduction to the Standard Model and Electroweak Physics, Paul Langacker, arXiv:0901.0241, 2009. TASI2008.

[3-6]

Introduction to Electroweak Symmetry Breaking, S. Dawson, AIP Conf. Proc. 1116 (2009) 11-34, arXiv:0812.2190. XIII Mexican School of Particles and Fields, 2-11 October, 2008, Sonora, Mexico.

[3-7]

Theory of Scalars, N.N. Achasov, A.V. Kiselev, G.N. Shestakov, Phys. Rev. D77 (2008) 074020, arXiv:0806.0521. PHIPSI08, Frascati, April 9, 2008.

[3-8]

The Many Uses of Chiral Effective Theories, Elisabetta Pallante, Frascati Phys. Ser. 46 (2008), arXiv:0803.2347. HADRON07, Frascati, October 8-13, 2007.

[3-9]

Non-relativistic Quantum Mechanics versus Quantum Field Theories, Antonio Pineda, arXiv:0705.4224, 2007. 42nd Rencontres de Moriond on QCD and High-Energy Hadronic Interactions, La Thuile, March 2007.

[3-10]

Introduction to the functional RG and applications to gauge theories, Holger Gies, arXiv:hep-ph/0611146, 2006. 2006 ECT" School "Renormalization Group and Effective Field Theory Approaches to Many-Body Systems", Trento, Italy.

[3-11]

Progress in nonequilibrium quantum field theory III, J. Berges, Sz. Borsanyi, Nucl. Phys. A785 (2007) 58-67, arXiv:hep-ph/0610015. SEWM06.

[3-12]

Field theory and standard model, Buchmuller, W., Ludeling, C., arXiv:hep-ph/0609174, 2006. European School of High-Energy Physics, August 2005, Kitzbuehel, Austria.

[3-13]

The Art of Computing Loop Integrals, Stefan Weinzierl, arXiv:hep-ph/0604068, 2006. "Renormalization and Universality in Mathematical Physics", Toronto, October 2005.

[3-14]

Introductory Lectures on Quantum Field Theory, Luis Alvarez-Gaume, Miguel A. Vazquez-Mozo, arXiv:hep-th/0510040, 2005.

[3-15]

Five lectures on effective field theory, David B. Kaplan, arXiv:nucl-th/0510023, 2005.

[3-16]

Symmetries in physics, Bijker, Roelof, arXiv:nucl-th/0509007, 2005. XIII Escuela de Verano en Fisica, Mexico DF, August 9-19, 2005.

[3-17]

Defect Structures in Field Theory, Dionisio Bazeia, arXiv:hep-th/0507188, 2005. XIII J.A. Swieca Summer School on Particles and Fields, Campos de Jordao, SP, Brazil, January 9-22, 2005.

[5-3]

What is Renormalization?, G. Peter Lepage, arXiv:hep-ph/0506330, 2005. TASI'89 in Boulder.

[3-19]

Introduction to Nonequilibrium Quantum Field Theory, J. Berges, Aip Conf. Proc. 739 (2005) 3, arXiv:hep-ph/0409233.

[3-20]

Field theory and the standard model, Novikov, V., arXiv:hep-ph/9812496, 1998. 1998 European School of High-Energy Physics.

[3-21]

Spin, mass, and symmetry, Peskin, Michael E., arXiv:hep-ph/9405255, 1994.

[4-1]

Concepts of Renormalization in Physics, Jean Alexandre, Sci. Prog. 88 (2005) 1, arXiv:physics/0508179.

[4-2]

A hint of renormalization, Delamotte, Bertrand, Am. J. Phys. 72 (2004) 170-184, arXiv:hep-th/0212049.

[4-3]

Dimensional analysis in field theory: an elementary introduction to broken scale invariance and the renormalization group equations, Stevenson, Paul M., Ann. Phys. 132 (1981) 383.

[5-1]

Radiative Corrections, Divergences, Regularization, Renormalization, Renormalization Group and All That in Examples in Quantum Field Theory, D.I. Kazakov, arXiv:0901.2208, 2009.

[5-2]

Regularization, Renormalization, and Dimensional Analysis: Dimensional Regularization meets Freshman E&M, Fredrick Olness, Randall Scalise, arXiv:0812.3578, 2008. CTEQ Summer School on QCD Analysis and Phenomenology.

[5-3]

What is Renormalization?, Lepage, G. Peter, arXiv:hep-ph/0506330, 2005. TASI'89: From Actions to Answers.

[6-1]

Anomalies, Stephen L. Adler, arXiv:hep-th/0411038, 2004.

[7-1]

TASI 2003 lectures on anomalies, Harvey, Jeffrey A., arXiv:hep-th/0509097, 2005.

[8-1]

The Path-Integral Approach to Spontaneous Symmetry Breaking, M.T.M. van Kessel, arXiv:0810.1412, 2008.

[8-2]

Topics in particle physics and cosmology beyond the standard model, Alejandro Jenkins, arXiv:hep-th/0607239, 2006.

[8-3]

Topics in quantum field theory: Renormalization groups in Hamiltonian framework and baryon structure in a non-local QCD model, Amir H. Rezaeian, arXiv:hep-ph/0507304, 2005.

[9-1]

Weak and electromagnetic interactions, A. Salam, 1969. Proc. of the 8th Nobel Symposium on `Elementary particle theory, relativistic groups and analyticity', Stockholm, Sweden, 1968, edited by N. Svartholm, p.367-377.

[9-2]

A model of leptons, Weinberg, S., Phys. Rev. Lett. 19 (1967) 1264-1266.

[9-3]

Partial symmetries of weak interactions, Glashow, S. L., Nucl. Phys. 22 (1961) 579-588.

(Nobel Prize in Physics 1999)'>

[10-1]

Regularization and renormalization of gauge fields, 't Hooft, Gerard, Veltman, M. J. G., Nucl. Phys. B44 (1972) 189-213.

[10-2]

Renormalizable lagrangians for massive Yang-Mills fields, 't Hooft, Gerard, Nucl. Phys. B35 (1971) 167-188.

[10-3]

Renormalization of massless Yang-Mills fields, 't Hooft, Gerard, Nucl. Phys. B33 (1971) 173-199.

[11-1]

Asymptotic freedom: an approach to strong interactions, Politzer, H. David, Phys. Rep. 14 (1974) 129-180.

[11-2]

Asymptotically free gauge theories. 2, Gross, D. J., Wilczek, Frank, Phys. Rev. D9 (1974) 980-993.

[11-3]

Asymptotically free gauge theories. 1, Gross, D. J., Wilczek, Frank, Phys. Rev. D8 (1973) 3633-3652.

[11-4]

Reliable perturbative results for strong interactions?, Politzer, H. David, Phys. Rev. Lett. 30 (1973) 1346-1349.

[11-5]

Ultraviolet behavior of non-abelian gauge theories, Gross, D. J., Wilczek, Frank, Phys. Rev. Lett. 30 (1973) 1343-1346.

[12-1]

Feynman diagrams for the Yang-Mills field, Faddeev, L. D., Popov, V. N., Phys. Lett. B25 (1967) 29-30.

[12-2]

Symmetry breaking in non-Abelian gauge theories, Kibble, T. W. B., Phys. Rev. 155 (1967) 1554-1561.

[12-3]

Spontaneous symmetry breakdown without massless bosons, Higgs, Peter W., Phys. Rev. 145 (1966) 1156-1163.

[12-4]

Global conservation laws and massless particles, Guralnik, G. S., Hagen, C. R., Kibble, T. W. B., Phys. Rev. Lett. 13 (1964) 585-587.

[12-5]

Broken symmetries and the masses of gauge bosons, Higgs, Peter W., Phys. Rev. Lett. 13 (1964) 508-509.

[12-6]

Broken symmetry and the mass of gauge vector mesons, Englert, F., Brout, R., Phys. Rev. Lett. 13 (1964) 321-322.

[12-7]

Broken symmetries, massless particles and gauge fields, Higgs, Peter W., Phys. Lett. 12 (1964) 132-133.

[12-8]

Broken symmetries, Goldstone, Jeffrey, Salam, Abdus, Weinberg, Steven, Phys. Rev. 127 (1962) 965-970.

[12-9]

Field theories with "superconductor" solutions, Goldstone, J., Nuovo Cim. 19 (1961) 154-164.

[12-10]

Axial vector current conservation in weak interactions, Nambu, Yoichiro, Phys. Rev. Lett. 4 (1960) 380-382.

[12-11]

Connection between Spin and Statistics, G. Luders, B. Zumino, Phys. Rev. 110 (1958) 1450-1453.

[12-12]

Conservation of isotopic spin and isotopic gauge invariance, Yang, C. N., Mills, R. L., Phys. Rev. 96 (1954) 191-195.

[12-13]

On the Invariant regularization in relativistic quantum theory, Pauli, W., Villars, F., Rev. Mod. Phys. 21 (1949) 434-444.

[12-14]

The Connection Between Spin and Statistics, W. Pauli, Phys. Rev. 58 (1940) 716-722. http://prola.aps.org/abstract/PR/v58/i8/p716_1.

[13-1]

Gravitational anomalies, Alvarez-Gaume, Luis, Witten, Edward, Nucl. Phys. B234 (1984) 269.

[13-2]

An SU(2) anomaly, Witten, Edward, Phys. Lett. B117 (1982) 324-328.

[13-3]

Quantum gravity and world topology, Eguchi, Tohru, Freund, Peter G. O., Phys. Rev. Lett. 37 (1976) 1251.

[13-4]

The gravitational correction to PCAC, Delbourgo, R., Salam, Abdus, Phys. Lett. B40 (1972) 381-382.

[13-5]

Gauge theories without anomalies, Georgi, Howard, Glashow, Sheldon L., Phys. Rev. D6 (1972) 429.

[13-6]

Effect of anomalies on quasirenormalizable theories, Gross, David J., Jackiw, R., Phys. Rev. D6 (1972) 477-493.

[13-7]

An anomaly free version of Weinberg's model, Bouchiat, C., Iliopoulos, J., Meyer, P., Phys. Lett. B38 (1972) 519-523.

[13-8]

A PCAC puzzle: in the sigma model, Bell, J. S., Jackiw, R., Nuovo Cim. A60 (1969) 47-61.

[13-9]

Axial vector vertex in spinor electrodynamics, Adler, Stephen L., Phys. Rev. 177 (1969) 2426-2438.

[14-1]

Aspects of the Grand Unification of Strong, Weak and Electromagnetic Interactions, Buras, A. J., Ellis, John R., Gaillard, M. K., Nanopoulos, Dimitri V., Nucl. Phys. B135 (1978) 66-92.

[14-2]

The Price of Natural Flavor Conservation in Neutral Weak Interactions, Chanowitz, Michael S., Ellis, John R., Gaillard, Mary K., Nucl. Phys. B128 (1977) 506.

[14-3]

Freedom at Moderate Energies: Masses in Color Dynamics, Georgi, Howard, Politzer, H. David, Phys. Rev. D14 (1976) 1829.

[14-4]

Effective Quark Masses in the Chiral Limit, Politzer, H. David, Nucl. Phys. B117 (1976) 397.

[14-5]

Hierarchy of Interactions in Unified Gauge Theories, Georgi, H., Quinn, Helen R., Weinberg, Steven, Phys. Rev. Lett. 33 (1974) 451-454.

[15-1]

How to define physical properties of unstable particles, J. Gegelia, S. Scherer, arXiv:0910.4280, 2009.

[15-2]

A recursive reduction of tensor Feynman integrals, T. Diakonidis, J. Fleischer, T. Riemann, J. B. Tausk, arXiv:0907.2115, 2009.

[15-3]

Nearby resonances beyond the Breit-Wigner approximation, Giacomo Cacciapaglia, Aldo Deandrea, Stefania De Curtis, arXiv:0906.3417, 2009.

[15-4]

Majoranized Feynman rules, R. Kleiss, I. Malamos, G. v.d. Oord, Eur. Phys. J. C64 (2009) 387-389, arXiv:0906.3388.

[15-5]

Mixing angles of quarks and leptons in Quantum Field Theory, Quentin Duret, Bruno Machet, M. I. Vysotsky, Eur. Phys. J. C61 (2009) 247-278, arXiv:0805.4121.

[15-6]

Unparticle Physics, Howard Georgi, Phys. Rev. Lett. 98 (2007) 221601, arXiv:hep-ph/0703260.

[15-7]

Representation-independent manipulations with Dirac spinors, Palash B. Pal, arXiv:physics/0703214, 2007.

[15-8]

Fermion resonance in quantum field theory, M.O. Gonchar, A.E. Kaloshin, V.P. Lomov, Mod. Phys. Lett. A22 (2007) 2511-2519, arXiv:hep-ph/0611314.

[15-9]

Real time statistical field theory, M. E. Carrington, T. Fugleberg, D. S. Irvine, D. Pickering, Eur. Phys. J. C50 (2007) 711-727, arXiv:hep-ph/0608298.

[15-10]

On "t Hooft"s representation of the -function, I. M. Suslov, arXiv:hep-ph/0605115, 2006.

[15-11]

Consequences of Dirac's theory of positrons, Heisenberg, W., Euler, H., Z. Phys. 98 (1936) 714-732, arXiv:physics/0605038.

[15-12]

Consequences of Dirac Theory of the Positron, W. Heisenberg, H. Euler, arXiv:physics/0605038, 2006. Translation of historic paper.

[15-13]

Lecture Notes for Massless Spinor and Massive Spinor Triangle Diagrams, Christopher T. Hill, arXiv:hep-th/0601155, 2006.

[15-14]

The spin-statistics connection in classical field theory, J. A. Morgan, arXiv:physics/0601014, 2006.

[15-15]

Radiative Corrections as the Origin of Spontaneous Symmetry Breaking, Erick J. Weinberg, arXiv:hep-th/0507214, 2005.

[15-16]

Package for Calculations and Simplifications of Expressions with Dirac Matrixes (MatrixExp), Poghosyan, V. A., Comput. Phys. Commun. 170 (2005) 287, arXiv:hep-ph/0507080.

[15-17]

On the Unification of Gauge Symmetries in Theories with Dynamical Symmetry Breaking, Neil D. Christensen, Robert Shrock, Phys. Rev. D72 (2005) 035013, arXiv:hep-ph/0506155.

[15-18]

Breaking Discrete Symmetries in Broken Gauge Theories, Thomas Appelquist, Yang Bai, Maurizio Piai, Phys. Rev. D72 (2005) 036005, arXiv:hep-ph/0506137.

[15-19]

Bound states in Yukawa theory, Axel Weber, Norbert E. Ligterink, Few Body Syst. 46 (2009) 115-138, arXiv:hep-ph/0506123.

[15-20]

Bosonization of the Pairing Hamiltonian, Maria B. Barbaro, Maria R. Quaglia, arXiv:nucl-th/0506085, 2005.

[15-21]

A New Method for Calculation of Traces of Dirac -Matrices, Alexander L. Bondarev, Nucl. Phys. B733 (2006) 48, arXiv:hep-ph/0504223.

[15-22]

Accidental Goldstone Bosons, Kenneth Lane, Adam Martin, Phys. Rev. D71 (2005) 076007, arXiv:hep-ph/0501204.

[15-23]

Derivation of Poincare Invariance from general quantum field theory, C.D. Froggatt, H.B. Nielsen, arXiv:hep-th/0501149, 2005.

[15-24]

Relativistic Resonances: their Masses, Widths, Lifetimes, Superposition, and Causal Evolution, Arno R. Bohm, Yoshihiro Sato, Phys. Rev. D71 (2005) 085018, arXiv:hep-ph/0412106.

[15-25]

Mass and decays of Brout-Englert-Higgs scalar with extra generations, J.-M. Frere, A.N. Rozanov, M.I. Vysotsky, Phys. Atom. Nucl. 69 (2006) 355-359, arXiv:hep-ph/0412080.

[15-26]

Nonlinear Bogolyubov-Valatin transformations and quaternions, J.-W. van Holten, K. Scharnhorst, J. Phys. A38 (2005) 10245, arXiv:quant-ph/0411170.

[15-27]

Renormalization and resummation in finite temperature field theories, A. Jakovac, Zs. Szep, Phys. Rev. D71 (2005) 105001, arXiv:hep-ph/0405226.

[15-28]

Lagrangian quantum field theory in momentum picture. II. Free spinor fields, Bozhidar Z. Iliev, arXiv:hep-th/0405008, 2004.

[15-29]

Nonperturbative calculational method in quantum field theory, V. Dzhunushaliev, D. Singleton, T. Nikulicheva, arXiv:hep-ph/0402205, 2004.

[15-30]

Symbolic calculation of multiparticle Feynman amplitudes, P.Cherzor, arXiv:hep-ph/0310088, 2003.

[15-31]

Generalized Fierz identities, Jose F. Nieves, Palash B. Pal, Am. J. Phys. 72 (2004) 1100, arXiv:hep-ph/0306087.

[15-32]

An effective field theory for heavy quarks at low energies, Georgi, Howard, Phys. Lett. B240 (1990) 447-450.

[15-33]

Conservation law violation at high-energy by anomalies, Christ, N. H., Phys. Rev. D21 (1980) 1591.

[15-34]

Dynamics of Spontaneous Symmetry Breaking in the Weinberg-Salam Theory, Susskind, Leonard, Phys. Rev. D20 (1979) 2619-2625.

[15-35]

Implications of Dynamical Symmetry Breaking: An Addendum, Weinberg, Steven, Phys. Rev. D19 (1979) 1277-1280.

[15-36]

Implications of Dynamical Symmetry Breaking, Weinberg, Steven, Phys. Rev. D13 (1976) 974-996.

[15-37]

Infrared singularities and massive fields, Appelquist, Thomas, Carazzone, J., Phys. Rev. D11 (1975) 2856.

[15-38]

Spontaneously broken gauge symmetries. IV. General gauge formulation, Lee, B. W., Zinn-Justin, J., Phys. Rev. D7 (1973) 1049-1056.

[15-39]

Spontaneously broken gauge symmetries. III. Equivalence, Lee, B. W., Zinn-Justin, J., Phys. Rev. D5 (1972) 3155-3160.

[15-40]

Spontaneously broken gauge symmetries. II. Perturbation theory and renormalization, Lee, B. W., Zinn-Justin, J., Phys. Rev. D5 (1972) 3137-3155.

[15-41]

Spontaneously broken gauge symmetries. I. Preliminaries, Lee, B. W., Zinn-Justin, J., Phys. Rev. D5 (1972) 3121-3137.

[16-1]

When Effective Field Theories Fail, John F. Donoghue, arXiv:0909.0021, 2009. International Workshop on Effective Field Theories, Valencia, 2-6 February 2009.

[16-2]

Automating Renormalization of Quantum Field Theories, A. D. Kennedy, T. Binoth, T. Rippon, arXiv:0712.1016, 2007. International Workshop on Symbolic-Numeric Computation'07, University of Western Ontario, Canada.

[16-3]

Majorana and the Infinite Component Wave Equations, Roberto Casalbuoni, PoS EMC2006 (2006) 004, arXiv:hep-th/0610252. International Conference - Ettore Majorana's legacy and the Physics of the XXI century, October 5-6 2006.

[16-4]

Two Loop QFT in the Making, Stefano Actis, Giampiero Passarino, Sandro Uccirati, Nucl. Phys. Proc. Suppl. 160 (2006) 145-149, arXiv:hep-ph/0608294. 8th DESY Workshop on Elementary Particle Theory "Loops and Legs in Quantum Field Theory", April 2006, Eisenach, Germany.

[16-5]

Some recent results on evaluating Feynman integrals, V.A. Smirnov, Nucl. Phys. Proc. Suppl. 157 (2006) 131-135, arXiv:hep-ph/0601268. Radcor 2005.

[16-6]

Calculation of the scattering amplitudes, Alexander L. Bondarev, arXiv:hep-ph/0511324, 2005. 9th Annual RDMS CMS Collaboration Conference, Minsk, Belarus, November 28 - December 2, 2004.

[16-7]

Spin in quantum field theory, Stefano Forte, Lect. Notes Phys. 712 (2007) 67-94, arXiv:hep-th/0507291.

[16-8]

Effective theory approach to unstable particles, Giulia Zanderighi, arXiv:hep-ph/0405124, 2004. XXXIXth Rencontres de Moriond on Electroweak and Unified Interactions, La Thuille, Italy, March 21-28 2004.

[16-9]

Renormalization without infinities, 't Hooft, Gerard, Int. J. Mod. Phys. A20 (2005) 1336, arXiv:hep-th/0405032. Coral Gables Conference, dec. 16-21, 2003.

[16-10]

Feynman"s Branes and Feynman"s Oscillators, Y. S. Kim, Marilyn E. Noz, arXiv:hep-ph/0402202, 2004. Workshop on Branes and Generalized Dynamics (Argonne, Illinois, USA, October 2003).

[16-11]

Calculation of Feynman integrals by difference equations, S. Laporta, Acta Phys. Polon. B34 (2003) 5323, arXiv:hep-ph/0311065. XXVII International Conference of Theoretical Physics "Matter to the Deepest", Ustron, Poland, 15-21 September 2003.

[17-1]

BEC and the particle mass, G.A. Kozlov, arXiv:hep-ph/0512184, 2005.

[17-2]

Weinberg-Salam model at finite temperature and density, M.Loewe, S. Mendizabal Cofre, J.C. Rojas, Phys. Lett. B617 (2005) 87, arXiv:hep-ph/0412392.

[17-3]

Thermal Green functions in coordinate space for massless particles of any spin, Weldon, H. Arthur, Phys. Rev. D62 (2000) 056010, arXiv:hep-ph/0007138.

[17-4]

Green functions in coordinate space for gauge bosons at finite temperature, Weldon, H. Arthur, Phys. Rev. D62 (2000) 056003, arXiv:hep-ph/0007072.

[17-5]

Structure of the quark propagator at high temperature, Weldon, H. Arthur, Phys. Rev. D61 (2000) 036003, arXiv:hep-ph/9908204.

[17-6]

Mass-shell behavior of electron propagator at low temperature, Weldon, H. Arthur, Phys. Rev. D59 (1999) 065002, arXiv:hep-ph/9810324.

[17-7]

Branch cuts due to finite-temperature quasiparticles, Weldon, H. Arthur, Phys. Rev. D58 (1998) 105002, arXiv:hep-ph/9806325.

[17-8]

Finite-temperature retarded and advanced fields, Weldon, H. Arthur, Nucl. Phys. B534 (1998) 467-490, arXiv:hep-ph/9803478.

[17-9]

Structure of the gluon propagator at finite temperature, Weldon, H. Arthur, Annals Phys. 271 (1999) 141-156, arXiv:hep-ph/9701279.

[17-10]

The Finite-Temperature Propagator in Operator Form, Weldon, H. Arthur, Phys. Rev. D53 (1996) 7265-7269, arXiv:hep-ph/9510248.

[17-11]

Suppression of Bremsstrahlung at nonzero temperature, Weldon, H. Arthur, Phys. Rev. D49 (1994) 1579-1584, arXiv:hep-ph/9308243.

[17-12]

Generalization of the Breit-Wigner formula to nonzero temperature and density, Weldon, H. A., Annals Phys. 228 (1993) 43-51.

[17-13]

Mishaps with Feynman parametrization at finite temperature, Weldon, H. Arthur, Phys. Rev. D47 (1993) 594-600.

[17-14]

Thermalization of boson propagators in finite temperature field theory, Weldon, H. Arthur, Phys. Rev. D45 (1992) 352-355.

[17-15]

Reformulation of finite temperature dilepton production, Weldon, H. A., Phys. Rev. D42 (1990) 2384-2387.

[17-16]

The lambda phi^4 coupling at high temperature, Weldon, H. A., Phys. Lett. B174 (1986) 427-428.

[17-17]

Proof of zeta function regularization of high temperature expansions, Weldon, H. A., Nucl. Phys. B270 (1986) 79.

[17-18]

Simple rules for discontinuities in finite temperature field theory, Weldon, H. Arthur, Phys. Rev. D28 (1983) 2007.

[17-19]

Effective fermion masses of order gt in high temperature gauge theories with exact chiral invariance, Weldon, H. Arthur, Phys. Rev. D26 (1982) 2789.

[17-20]

Covariant calculations at finite temperature: the relativistic plasma, Weldon, H. Arthur, Phys. Rev. D26 (1982) 1394.

[17-21]

Semiclassical methods at finite temperature, Dolan, L., Kiskis, J. E., Phys. Rev. D20 (1979) 505.

[17-22]

Finite temperature propagators for a spontaneously broken field theory, Dolan, L., Phys. Rev. D12 (1975) 3098.

[17-23]

Symmetry behavior at finite temperature, Dolan, L., Jackiw, R., Phys. Rev. D9 (1974) 3320-3341.

[18-1]

Lattice Field Theory: past, present and future, H. Neuberger, arXiv:hep-ph/0402148, 2004.

[19-1]

Quantum theory of noncommutative fields, Carmona, J. M., Cortes, J. L., Gamboa, J., Mendez, F., JHEP 03 (2003) 058, arXiv:hep-th/0301248.

[20-1]

Renormalization Invariants and Quark Flavor Mixings, Lu-Xin Liu, arXiv:0910.1326, 2009.

[20-2]

On-shell renormalization of the mixing matrices in Majorana neutrino theories, Almasy, Andrea A., Kniehl, Bernd A., Sirlin, Alberto, Nucl. Phys. B818 (2009) 115-134, arXiv:0902.3793.

[20-3]

A Novel Formulation of Cabibbo-Kobayashi-Maskawa Matrix Renormalization, Bernd A. Kniehl, Alberto Sirlin, Phys. Lett. B673 (2009) 208-210, arXiv:0901.0114.

[20-4]

Higgs Boson Decay and the Running Mass, Braaten, E., Leveille, J. P., Phys. Rev. D22 (1980) 715.

[20-5]

Higgs Phenomena in Asymptotically Free Gauge Theories, Cheng, T. P., Eichten, E., Li, Ling-Fong, Phys. Rev. D9 (1974) 2259.

[20-6]

New approach to the renormalization group, Weinberg, Steven, Phys. Rev. D8 (1973) 3497-3509.

[21-1]

Novel formulations of CKM matrix renormalization, B.A. Kniehl, A. Sirlin, arXiv:0906.2670, 2009. CIPANP 2009: Tenth Conference on the Intersections of Particle and Nuclear Physics, San Diego, 26-31 May 2009.

[22-1]

Bayesian Methods for Parameter Estimation in Effective Field Theories, Schindler, Matthias R., Phillips, Daniel R., Annals Phys. 324 (2009) 682-708, arXiv:0808.3643.

[22-2]

Is the physical vacuum a preferred frame?, M. Consoli, E. Costanzo, Eur. Phys. J. C54 (2008) 285-290, arXiv:0709.4101.

[23-1]

CPT / Lorentz invariance violation and neutrino oscillation, Arias, P., Gamboa, J., Lopez-Sarrion, J., Mendez, F., Das, Ashok K., Phys. Lett. B650 (2007) 401-406, arXiv:hep-ph/0608007.

[23-2]

Noncommutativity in field space and Lorentz invariance violation, Carmona, J. M., Cortes, J. L., Gamboa, J., Mendez, F., Phys. Lett. B565 (2003) 222-228, arXiv:hep-th/0207158.

[24-1]

Una lezione particolare di Ettore Majorana, Esposito, S., arXiv:physics/0512174, 2005.

[24-2]

Yang-Mills Theory In, Beyond, and Behind Observed Reality, Frank Wilczek, arXiv:hep-ph/0405147, 2004.

[24-3]

Anomalies to All Orders, Stephen L. Adler, arXiv:hep-th/0405040, 2004.

[24-4]

Fifty Years of Yang-Mills Theory and my Contribution to it, R. Jackiw, arXiv:physics/0403109, 2004.

[25-1]

Local spinor structures in V. Fock"s and H. Weyl"s work on the Dirac equation (1929), Erhard Scholz, arXiv:physics/0409158, 2004. "History of Geometry, 1930 to 2000", Paris, September 2001.

[25-2]

Early history of gauge theories and weak interactions, Straumann, Norbert, arXiv:hep-ph/9609230, 1996. Zuoz Summer School on Physics with Neutrinos, Zuoz, Switzerland, 4-10 Aug 1996.

[26-1]

Lessons in Particle Physics, Anchordoqui, Luis, Halzen, Francis, arXiv:0906.1271, 2009.

Neutrino Unbound

String RegExp         Case Insensitive Case Sensitive