Einstein's Relativity and Beyond: New Symmetry ApproachesThe purposes of this book are (1) to explore and expound relativity physics and four-dimensional symmetry from the logically simplest viewpoint by making one single postulate instead of two; and (2) to indicate the simplest generalization of the Lorentz transformation in order to cope with frames with constant linear accelerations. The fundamentally new ideas of the first purpose are developed on the basis of the term paper of a Harvard physics undergraduate. They lead to an unexpected affirmative answer to the long-standing question of whether it is possible to construct a relativity theory without postulating the constancy of the speed of light and retaining only the first postulate of special relativity. This question was discussed in the early years following the discovery of special relativity by many physicists, including Ritz, Tolman, Kunz, Comstock and Pauli, all of whom obtained negative answers. Furthermore, the new theory of relativity indicates the truly universal and fundamental constants in physics, and provides a broad view of relativistic physics beyond special relativity. It substantiates the view and sheds light on the understanding that the four-dimensional symmetry framework can accommodate many different concepts of physical time, including common time and Reichenbach's general concept of time. This logically simplest viewpoint of relativity allows a natural extension of the physics of particles and fields from inertial frames to noninertial frames in which the speed of light is not constant. New predictions in physics resulting from this new viewpoint are discussed. The book is based on papers by the author and his collaborators in Physics Letters A, Nuovo Cimento B, and Physical Review A and D. |
Contents
0 Introduction | 1 |
1 A Brief Review of Space and Time | 9 |
2 The Nontrivial Pursuit of Earths Absolute Motion | 19 |
3 On the Right Track Voigt Lorentz and Larmor | 27 |
4 Poincarés Contributions and the Aether Past and Present | 35 |
5 Young Einsteins Novel Creation Based on 2 Postulates | 61 |
6 Minkowskis 4Dimensional Spacetime Adjustable Clocks and Flexibility in the Concept of Time | 80 |
7 Taiji Relativity Based Solely on 1 Principle the First Principle of Relativity | 87 |
A Weaker Postulate for the Speed of Light | 232 |
18 Extended Relativity with the Lorentz Group and Lifetime Dilatation | 248 |
19 Physical Implications of Extended Relativity | 256 |
20 Determination of the Parameters of General Linear Transformations by Precision Experiments | 273 |
21 Generalized Lorentz Transformations for NonInertial Frames Based on the Limiting 4Dimensional Symmetry | 282 |
22 Dynamics of Classical and Quantum Particles in NonInertial Frames with the Limiting 4Dimensional Symmetry | 304 |
23 Experimental Tests of Generalized Lorentz Transformations for ConstantLinearAcceleration Frames | 327 |
24 Quantizations of Scalar Spinor and Electromagnetic Fields in ConstantLinearAcceleration Frames | 336 |
8 The Arbitrary Speed of Light in Taiji Relativity and the MichelsonMorley Experiment | 100 |
9 Lorentz and Poincaré Invariance Without Involving a Constant Corresponding to the Speed of Light | 112 |
10 Truly Universal Constants and Physical Laws Based on Taiji Relativity | 125 |
11 Quantum Electrodynamics Based on Taiji Relativity and Dilatation of Lifetimes and DecayLengths | 138 |
A Common Time for all Observers | 148 |
13 Common Time and ManyParticle Systems in a 4Dimensional Symmetry Framework | 167 |
14 Common Relativity and Quantum Mechanics | 195 |
15 Common Relativity and Fuzzy Quantum Field Theory | 207 |
16 Common Relativity and the 3 K Cosmic Background Radiation | 221 |
25 Taiji Rotational Transformations with the Limiting 4Dimensional Symmetry | 355 |
26 Epilogue | 368 |
Appendix A Noethers Theorem in Both Linearly Accelerated and Inertial Frames | 372 |
Appendix B Quantum Electrodynamics in Both Linearly Accelerated and Inertial Frames | 384 |
Appendix C De Sitter and Poincaré GaugeInvariant Fermion Lagrangians and Gravity | 396 |
Appendix D The Relativity of Lifetime Dilatation and an Experimental Test of Twin Particles Involving Linear Accelerations | 403 |
| 413 | |
| 415 | |
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Einstein's Relativity And Beyond: New Symmetry Approaches Hsin-i Chang,Jong-ping Hsu Limited preview - 2000 |
Common terms and phrases
4-vector aether chapter charged particle CLA frame clocks common relativity concept coordinate covariant decay decay-length defined derived dimensional Dirac discussed Einstein electromagnetic field electron energy equation of motion evolution variable experimental extended relativity F and F F frame F₁ formalism four-dimensional symmetry frame F function fuzzy Hamiltonian inertial frame J. P. Hsu Jong-Ping Hsu Lagrangian length Leonardo Hsu Let us consider light signal lightime limiting 4-dimensional symmetry Lorentz and Poincaré Lorentz group Lorentz transformation Maxwell's equations measured metric tensor Michelson-Morley experiment momentum non-inertial frames Nuovo Cimento observers obtain photon Phys physical laws physicists Poincaré groups Poincaré-Einstein principle principle of relativity properties quantum electrodynamics quantum field theory Reichenbach's relation relativistic rest in F result scalar second postulate space spacetime special relativity speed of light synchronization taiji relativity taiji transformations taiji-time theory of relativity universal constant usual W₁ wave Wu transformation zero acceleration αγο