03593nam 2200625 a 450 991078088050332120230725041533.01-282-76381-49786612763816981-4307-50-5(CKB)2490000000001877(EBL)731281(OCoLC)670430136(SSID)ssj0000425146(PQKBManifestationID)12201982(PQKBTitleCode)TC0000425146(PQKBWorkID)10476547(PQKB)11730774(MiAaPQ)EBC731281(WSP)00001001 (Au-PeEL)EBL731281(CaPaEBR)ebr10422215(CaONFJC)MIL276381(EXLCZ)99249000000000187720101026d2010 uy 0engur|n|---|||||txtccrPerspectives on supersymmetry II[electronic resource] /editor, Gordon L. KaneNew Jersey World Scientific20101 online resource (604 p.)Advanced series on directions in high energy physics ;v. 21Description based upon print version of record.981-4307-49-1 981-4307-48-3 Includes bibliographical references.Introduction; Contents; 1. A Supersymmetry Primer S. P. Martin; 2. Twenty Open Questions and a Postscript: SUSY Enters the Era of the LHC K. R. Dienes and C. Kolda; 3. Developments in Supergravity Unified Models R. Arnowitt and P. Nath; 4. Soft Supersymmetry-Breaking Terms from Supergravity and Superstring Models A. Brignole, L. E. Ibanez and C. Munoz; 5. Mass Density of Neutralino Dark Matter J. D. Wells; 6. A Wino-Like LSP World: Theoretical and Phenomenological Motivations D. Feldman and G. Kane; 7. Reevaluating the Cosmological Origin of Dark Matter S. Watson8. Z Physics and Supersymmetry M. Cveti c and P. Langacker9. Searches for Supersymmetry at High-Energy Colliders J. L. Feng, J.-F. Grivaz and J. Nachtman; 10. Low-Energy Supersymmetry at Future Colliders J. F. Gunion and H. E. Haber; 11. Computational Tools for Supersymmetry Calculations H. Baer; 12. Charge and Color Breaking J. A. Casas; 13. Regularisation of Supersymmetric Theories I. Jack and D. R. T. Jones; 14. Probing Physics at Short Distances with Supersymmetry H. Murayama; 15. Supersymmetry and String Theory M. Dine; 16. Supersymmetry and Inflation L. Randall17. An Introduction to Explicit R-Parity Violation H. DreinerSupersymmetry is at an exciting stage of development. It extends the Standard Model of particle physics into a more powerful theory that both explains more and allows more questions to be addressed. Most importantly, it opens a window for studying and testing fundamental theories at the Planck scale. Experimentally we are finally entering the intensity and energy and sensitivity regions where superpartners and supersymmetric dark matter candidates are likely to be detected, and then studied. There has been progress in understanding the remarkable physics implications of supersymmetry, includinAdvanced series on directions in high energy physics ;v. 21.SupersymmetrySupersymmetry.539.72533.52bclKane G. L51728MiAaPQMiAaPQMiAaPQBOOK9910780880503321Perspectives on supersymmetry II3849606UNINA