Chiral effective field theory and nuclear forces
Abstract: We review how nuclear forces emerge from low-energy QCD via chiral effective field theory. The presentation is accessible to the non-specialist. At the same time, we also provide considerable detailed information (mostly in appendices) for the benefit of researchers who wish to start working in this field.
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References
Review of Particle Physics
Koji Nakamura,K. Hagiwara,Ken Ichi Hikasa,Hitoshi Murayama,Hitoshi Murayama,Hitoshi Murayama,Masaharu Tanabashi,Taizan Watari,Claude Amsler,Mario Antonelli,D. M. Asner,Howard Baer,H. R. Band,R. M. Barnett,T. Basaglia,E. Bergren,J. Beringer,G. Bernardi,W. Bertl,H. Bichsel,Otmar Biebel,E. Blucher,S. Blusk,Robert N. Cahn,Marcela Carena,Marcela Carena,Augusto Ceccucci,Debadi Chakraborty,Mingshui Chen,R. S. Chivukula,G. A. Cowan,O. I. Dahl,Giancarlo D'Ambrosio,Thibault Damour,Daniel de Florian,A. de Gouvea,Thomas DeGrand,G. Dissertori,Bogdan A. Dobrescu,Michael Doser,Manuel Drees,D. A. Edwards,Semen Eidelman,Jens Erler,V. V. Ezhela,W. Fetscher,Brian D. Fields,B. Foster,Thomas K. Gaisser,L. A. Garren,H J Gerber,G. Gerbier,Tony Gherghetta,Gian F. Giudice,Sunil Golwala,Maury Goodman,Christoph Grab,Andrei Gritsan,Jean-Francois Grivaz,D. E. Groom,Martin Grunewald,Atul Gurtu,Atul Gurtu,Th. Gutsche,Howard E. Haber,C. A. Hagmann,K. G. Hayes,M. Heffner,B. K. Heltsley,J.J. Hernández-Rey,A Höcker,Jamie Holder,Joey Huston,John David Jackson,Kurtis F Johnson,T. Junk,Albrecht Karle,D. Karlen,B. Kayser,D. Kirkby,S. R. Klein,Christopher Kolda,R. Kowalewski,B. Krusche,Yu V. Kuyanov,Younghoon Kwon,Ofer Lahav,Paul Langacker,Andrew R. Liddle,Zoltan Ligeti,Chi Lin,Tony Liss,L. S. Littenberg,K. S. Lugovsky,S. B. Lugovsky,J. Lys,H. Mahlke,T Mannel,Aneesh V. Manohar,William J. Marciano,Alan D. Martin,A. Masoni,David Milstead,Ramon Miquel,Klaus Mönig,Meenakshi Narain,Paolo Nason,S. Sánchez Navas,P. Nevski,Yosef Nir,Keith A. Olive,Luc Pape,C. Patrignani,John A. Peacock,S. T. Petcov,S. T. Petcov,A. Piepke,G. Punzi,Arnulf Quadt,Stuart Raby,Georg G. Raffelt,B. N. Ratcliff,Paul William Richardson,Stefan Roesler,S. Rolli,Anatoli Romaniouk,L. J. Rosenberg,Jonathan L. Rosner,C.T. Sachrajda,Y. Sakai,Gavin P. Salam,Subir Sarkar,Fabio Sauli,O. Schneider,Kate Scholberg,Douglas Scott,W. G. Seligman,M. H. Shaevitz,M. Silari,Torbjörn Sjöstrand,J. G. Smith,George F. Smoot,S. M. Spanier,H. Spieler,Achim Stahl,Todor Stanev,Sophia L. Stone,T. Sumiyoshi,Michael Syphers,John Terning,Maksym Titov,N. P. Tkachenko,Nils A. Tornqvist,Daniel Tovey,T. G. Trippe,German Valencia,K. van Bibber,G. Venanzoni,Manuella Vincter,Petr Vogel,Andreas Vogt,Wolfgang Walkowiak,C. W. Walter,D. R. Ward,Bryan R. Webber,Georg Weiglein,E. J. Weinberg,James D. Wells,A. Wheeler,L. R. Wiencke,C. G. Wohl,Lincoln Wolfenstein,J. Womersley,C. L. Woody,Ron L. Workman,A. Yamamoto,W-M. Yao,Oleg Zenin,Jie Zhang,Ren-Yuan Zhu,P A Zyla,G. Harper,V. S. Lugovsky,P. Schaffner +183 more
TL;DR: In this article, a biennial review summarizes much of particle physics using data from previous editions, plus 2158 new measurements from 551 papers, they list, evaluate and average measured properties of gauge bosons, leptons, quarks, mesons, and baryons.
The quantum theory of fields
Steven Weinberg
- 30 Jun 1995
TL;DR: Weinberg as discussed by the authors presented a self-contained, up-to-date and comprehensive introduction to supersymmetry, a highly active area of theoretical physics, including supersymmetric algebras.
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