dorsal/arxiv
View SchemaOn the principles of quantum mechanics
| Authors | Eijiro Sakai |
|---|---|
| Categories | |
| ArXiv ID | quant-ph/0405069 |
| URL | https://arxiv.org/abs/quant-ph/0405069 |
Abstract
We propose six principles as the fundamental principles of quantum mechanics: principle of space and time, Galilean principle of relativity, Hamilton's principle, wave principle, probability principle, and principle of indestructibility and increatiblity of particles. We deductively develop the formalism of quantum mechanics on the basis of them: we determine the form of the Lagrangian that satisfies requirements of these principles, and obtain the Schroedinger equation from the Lagrangian. We also derive the canonical commutation relations. Then we adopt the following four guide lines. First, we do not premise the relations between dynamical variables in classical mechanics. Second, we define energy, momentum, and angular momentum as the constants of motion that are derived from homogeneity and isotropy in space and time on the basis of principle of space and time. Since energy and momentum are quantitatively defined in classical mechanics, we define them in quantum mechanics so that the corresponding conservation laws are satisfied in a coupling system of a quantum particle and a classical particle. Third, we define Planck's constant and the mass of a particle as proportionality constants between energy and frequency due to one of Einstein-de Broglie formulas and between momentum and velocity, respectively. We shall obtain the canonical commutation relations and the Schroedinger equation for a particle in an external field in the definitive form. We shall also prove that relations between dynamical variables in quantum mechanics have the same forms for those in classical mechanics.
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"abstract": "We propose six principles as the fundamental principles of quantum mechanics:\nprinciple of space and time, Galilean principle of relativity, Hamilton\u0027s\nprinciple, wave principle, probability principle, and principle of\nindestructibility and increatiblity of particles. We deductively develop the\nformalism of quantum mechanics on the basis of them: we determine the form of\nthe Lagrangian that satisfies requirements of these principles, and obtain the\nSchroedinger equation from the Lagrangian. We also derive the canonical\ncommutation relations. Then we adopt the following four guide lines. First, we\ndo not premise the relations between dynamical variables in classical\nmechanics. Second, we define energy, momentum, and angular momentum as the\nconstants of motion that are derived from homogeneity and isotropy in space and\ntime on the basis of principle of space and time. Since energy and momentum are\nquantitatively defined in classical mechanics, we define them in quantum\nmechanics so that the corresponding conservation laws are satisfied in a\ncoupling system of a quantum particle and a classical particle. Third, we\ndefine Planck\u0027s constant and the mass of a particle as proportionality\nconstants between energy and frequency due to one of Einstein-de Broglie\nformulas and between momentum and velocity, respectively. We shall obtain the\ncanonical commutation relations and the Schroedinger equation for a particle in\nan external field in the definitive form. We shall also prove that relations\nbetween dynamical variables in quantum mechanics have the same forms for those\nin classical mechanics.",
"arxiv_id": "quant-ph/0405069",
"authors": [
"Eijiro Sakai"
],
"categories": [
"quant-ph"
],
"title": "On the principles of quantum mechanics",
"url": "https://arxiv.org/abs/quant-ph/0405069"
},
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