×
Author ID: field.j-h Recent zbMATH articles by "Field, J. H."
Published as: Field, J. H.
Documents Indexed: 13 Publications since 1997

Co-Authors

13 single-authored

Publications by Year

Citations contained in zbMATH Open

7 Publications have been cited 20 times in 13 Documents Cited by Year
Derivation of the Schrödinger equation from the Hamilton-Jacobi equation in Feynman’s path integral formulation of quantum mechanics. Zbl 1219.81179
Field, J. H.
6
2011
A new kinematical derivation of the Lorentz transformation and the particle description of light. Zbl 0875.83016
Field, J. H.
4
1997
Quantum mechanics in space-time: the Feynman path amplitude description of physical optics, de Broglie matter waves and quark and neutrino flavour oscillations. Zbl 1093.81044
Field, J. H.
3
2006
Classical electromagnetism as a consequence of Coulomb’s law, special relativity and Hamilton’s principle and its relationship to quantum electrodynamics. Zbl 1177.78006
Field, J. H.
2
2006
Relationship of quantum mechanics to classical electromagnetism and classical relativistic mechanics. Zbl 1052.81006
Field, J. H.
2
2004
Description of diffraction-grating experiments for photons and electrons in Feynman’s spacetime formulation of quantum mechanics: the quantum origins of classical wave theories of light and massive particles. Zbl 1292.81089
Field, J. H.
2
2013
Einstein and Planck on mass-energy equivalence in 1905–1906: a modern perspective. Zbl 1305.83014
Field, J. H.
1
2014
Einstein and Planck on mass-energy equivalence in 1905–1906: a modern perspective. Zbl 1305.83014
Field, J. H.
1
2014
Description of diffraction-grating experiments for photons and electrons in Feynman’s spacetime formulation of quantum mechanics: the quantum origins of classical wave theories of light and massive particles. Zbl 1292.81089
Field, J. H.
2
2013
Derivation of the Schrödinger equation from the Hamilton-Jacobi equation in Feynman’s path integral formulation of quantum mechanics. Zbl 1219.81179
Field, J. H.
6
2011
Quantum mechanics in space-time: the Feynman path amplitude description of physical optics, de Broglie matter waves and quark and neutrino flavour oscillations. Zbl 1093.81044
Field, J. H.
3
2006
Classical electromagnetism as a consequence of Coulomb’s law, special relativity and Hamilton’s principle and its relationship to quantum electrodynamics. Zbl 1177.78006
Field, J. H.
2
2006
Relationship of quantum mechanics to classical electromagnetism and classical relativistic mechanics. Zbl 1052.81006
Field, J. H.
2
2004
A new kinematical derivation of the Lorentz transformation and the particle description of light. Zbl 0875.83016
Field, J. H.
4
1997

Citations by Year