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Relativistic dynamics refers to a combination of relativistic and quantum concepts to describe the relationships between the motion and properties of a relativistic system and the forces acting on the system. What distinguishes relativistic dynamics from other physical theories is the use of an invariant scalar evolution parameter to monitor the historical evolution of space-time events. In a scale-invariant theory, the strength of particle interactions does not depend on the energy of the particles involved. Twentieth century experiments showed that the physical description of microscopic and submicroscopic objects moving at or near the speed of light raised questions about such fundamental concepts as space, time, mass, and energy. The theoretical description of the physical phenomena required the integration of concepts from relativity and quantum theory. Vladimir Fock 〔Fock, V.A. (1937): Phys. Z. Sowjetunion 12, 404.〕 was the first to propose an evolution parameter theory for describing relativistic quantum phenomena, but the evolution parameter theory introduced by Ernst Stueckelberg 〔Stueckelberg, E.C.G. (1941): Helv. Phys. Acta 14, 322, 588.〕〔Stueckelberg, E.C.G. (1942): Helv. Phys. Acta 14, 23.〕 is more closely aligned with recent work.〔Fanchi, J.R. (1993): Found. Phys. 23, 487.〕〔Fanchi, J.R. (2003): “The Relativistic Quantum Potential and Non-Locality,” published in Horizons in World Physics, 240, Edited by Albert Reimer, (Nova Science Publishers, Hauppauge, New York), pp 117-159.〕 Evolution parameter theories were used by Feynman,〔Feynman, R.P. (1950): Phys. Rev. 80, 440.〕 Schwinger 〔Schwinger, J. (1951): Phys. Rev. 82, 664 and 914.〕 and others to formulate quantum field theory in the late 1940s and early 1950s. Silvan S. Schweber 〔Schweber, S.S. (1986): Rev. Mod. Phys. 58, 449.〕 wrote a nice historical exposition of Feynman’s investigation of such a theory. A resurgence of interest in evolution parameter theories began in the 1970s with the work of Horwitz and Piron,〔Horwitz, L.P. and C. Piron (1973): Helv. Phys. Acta 46, 316.〕 and Fanchi and Collins.〔Fanchi, J.R. and R.E. Collins (1978): Found. Phys. 8, 851.〕 == Invariant Evolution Parameter Concept == Some researchers view the evolution parameter as a mathematical artifact while others view the parameter as a physically measurable quantity. To understand the role of an evolution parameter and the fundamental difference between the standard theory and evolution parameter theories, it is necessary to review the concept of time. Time t played the role of a monotonically increasing evolution parameter in classical Newtonian mechanics, as in the force law F = dP/dt for a non-relativistic, classical object with momentum P. To Newton, time was an “arrow” that parameterized the direction of evolution of a system. Einstein rejected the Newtonian concept and identified t as the fourth coordinate of a space-time four-vector. Einstein's view of time requires a physical equivalence between coordinate time and coordinate space. In this view, time should be a reversible coordinate in the same manner as space. Particles moving backward in time are often used to display antiparticles in Feynman-diagrams, but they are not thought of as really moving backward in time usually it is done to simplify notation. However a lot of people think they are really moving backward in time and take it as evidence for time reversibility. The development of non-relativistic quantum mechanics in the early twentieth century preserved the Newtonian concept of time in the Schrödinger equation. The ability of non-relativistic quantum mechanics and special relativity to successfully describe observations motivated efforts to extend quantum concepts to the relativistic domain. Physicists had to decide what role time should play in relativistic quantum theory. The role of time was a key difference between Einsteinian and Newtonian views of classical theory. Two hypotheses that were consistent with special relativity were possible: 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Relativistic dynamics」の詳細全文を読む スポンサード リンク
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