05818nam 2200733Ia 450 991097292460332120251116231623.097866119380799781281938077128193807697898127795199812779515(CKB)1000000000538173(EBL)1679918(OCoLC)879550998(SSID)ssj0000228077(PQKBManifestationID)11174906(PQKBTitleCode)TC0000228077(PQKBWorkID)10148482(PQKB)11060808(MiAaPQ)EBC1679918(WSP)00001863 (Au-PeEL)EBL1679918(CaPaEBR)ebr10255830(CaONFJC)MIL193807(Perlego)850377(EXLCZ)99100000000053817320080709d2008 uy 0engur|n|---|||||txtccrProceedings of the Fourth Meering on CPT and Lorentz Symmetry, Bloomington, USA, 8-11 August 2007 /editor, V. Alan Kostelecky1st ed.Singapore ;Hackensack, N.J. World Scientificc20081 online resource (335 p.)"Fourth Meering on CPT and Lorentz Symmetry, which took place between Wednesday August 8 and Saturady August 11, 2007 in the Physics Department at Indiana University, Bloomington."--P. v.9789812779502 9812779507 Includes bibliographical references.CONTENTS; Preface; Improved Tests of Lorentz and CPT Symmetry using Noble-Gas Masers A . Glenday, D.F. Phillips, and R.L. Walsworth; 1. Introduction; 2. Motivation; 3. 129Xe/3He maser upgrades for Lorentz/CPT tests; 4. Conclusions; Acknowledgments; References; A Modern Michelson-Morley Experiment using Actively Rotated Optical Resonators S. Herrmann et al.; 1. Introduction; 2. The experiment; 3. Preliminary results; 4. Outlook; References; Rotating Experiments to Test Lorentz Invariance in the Photon Sector M.E. Tobar et al.; 1. Rotating Cryogenic Sapphire Oscillator Experiment2. Rotating Magnetic Interferometer ExperimentReferences; Lorentz Violation, Electrodynamics, and the Cosmic Microwave Background M. Mewes; 1. Introduction; 2. Theory; 3. CMB; 4. Results; Acknowledgments; References; High Energy Astrophysical Tests of Lorentz Invariance B. Altschul; References; Fundamental Physics Experiments in Space (within ESA) T.J. Sumner; 1. Motivation; 2. Enabling Technologies; 3. Opportunities; 3.1. LISA Pathfinder; 3.1.1. Technological Concept; 3.1.2. Scientific Objectives; 3.2. LISA; 3.2.1. Technological Concept; 3.2.2. Scientific Objectives; 3.3. GAUGE3.3.1. Technological Concept3.3.2. Scientific Objectives; References; The Experimental Foundations of the Dirac Equation C. Lammerzahl; 1. The Dirac equation; 2. The generalized Dirac equation; 2.1. General geometrical structures; 2.2. Nan-relativistic limit; 3. Tests of LLI and UFF; 4. Test of basic principles; 4.1. Well posedness of Cauchy problem; 4.2. Locality; 4.3. The superposition principle; Acknowledgments; References; Perspectives on Lorentz and CPT Violation V. A. Kostelecky'; 1. Introduction; 2. Approaches and origins; 3. Describing Lorentz violation3.1. Modified Lorentz transformations3.2 . Modified dispersion laws; 3.3. Effective field theory and the SME; 4. Gravity and Lorentz violation; 5. The search for signals; Acknowledgments; References; Search for Lorentz and CPT Violation Effects in Muon Spin Precession B.L. Roberts; 1. Introduction; 2. Experiment E821 at the BNL AGS; Acknowledgments; References; Lorentz Violation in a Diffeomorphism-Invariant Theory R. Jackiw; 1. Gauge Theory Preliminary; 2. Diffeomorphism Invariant Gravity Theory; 3. Reprise; Acknowledgments; References; Studies of CPT Symmetry with ASACUSA R.S. Hayano1. Introduction2. Weighing the antiproton - the method; 3. Weighing the antiproton - results; 4. Outlook; Acknowledgments; References; Neutrino Oscillations and Lorentz Violation with MiniBooNE R. Tayloe and T. Katori; 1. Neutrino Oscillations, Lorentz Violation, and LSND; 2. The Tandem Model; 3. The MiniBooNE Experiment; 4. Analysis and Results; References; Testing Lorentz and CPT Invariance with MINOS Near Detector Neutrinos B.J. Rebel and S.L. Mufson; 1. Introduction; 2. Data Sample; 3. Results; 4. Future Work; ReferencesEinstein-ather Gravity: Theory and Observational Constraints T. Jacobson This book contains the proceedings of the Fourth Meeting on CPT and Lorentz Symmetry, held at Indiana University in Bloomington on August 8-11, 2007. The Meeting focused on experimental tests of these fundamental symmetries and on important theoretical issues, including scenarios for possible relativity violations. Experimental subjects covered include: astrophysical observations, clock-comparison measurements, cosmological birefringence, electromagnetic resonant cavities, gravitational tests, matter interferometry, muon behavior, neutrino oscillations, oscillations and decays of neutral mesoCPT and Lorentz symmetry IVCP violation (Nuclear physics)CongressesLorentz groupsCongressesCP violation (Nuclear physics)Lorentz groups539.7/25539.725Kostelecký V. Alan1890589Meeting on CPT and Lorentz SymmetryMiAaPQMiAaPQMiAaPQBOOK9910972924603321Proceedings of the Fourth Meering on CPT and Lorentz Symmetry, Bloomington, USA, 8-11 August 20074539637UNINA