Edit Profile (opens in new tab) Field, J. H. Author ID: field.j-h Published as: Field, J. H. Documents Indexed: 13 Publications since 1997 Co-Authors 13 single-authored all top 5 Serials 5 European Journal of Physics 2 International Journal of Modern Physics A 2 Physica Scripta 1 Modern Physics Letters A 1 Helvetica Physica Acta 1 Annals of Physics 1 American Journal of Physics Fields 8 Quantum theory (81-XX) 6 Relativity and gravitational theory (83-XX) 5 Optics, electromagnetic theory (78-XX) 3 Mechanics of particles and systems (70-XX) Publications by Year all cited Publications top 5 cited Publications 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 all cited Publications top 5 cited Publications all top 5 Cited by 17 Authors 2 Field, J. H. 1 Băleanu, Dumitru I. 1 El-Nabulsi, Rami Ahmad 1 Golshani, Mehdi 1 Grigorescu, Marius 1 Jangid, Kamlesh 1 Kersevan, Borut Paul 1 Koupaei, Jalaledin Yousefi 1 Minguzzi, Ettore 1 Napoletani, Domenico 1 Purohit, Sunil Dutt 1 Richter-Wąs, Elzbieta 1 Sidharth, Burra Gautam 1 Stefanovich, Eugene V. 1 Struppa, Daniele Carlo 1 Wang, Lihong V. 1 Yan, Xiao-Bo all top 5 Cited in 10 Serials 3 Foundations of Physics 2 European Journal of Physics 1 International Journal of Modern Physics A 1 Computer Physics Communications 1 Journal of Mathematical Physics 1 Mathematical Methods in the Applied Sciences 1 Physica A 1 Applied Mathematics Letters 1 Foundations of Physics Letters 1 Advances in High Energy Physics all top 5 Cited in 13 Fields 8 Quantum theory (81-XX) 4 Mechanics of particles and systems (70-XX) 4 Relativity and gravitational theory (83-XX) 1 Linear and multilinear algebra; matrix theory (15-XX) 1 Associative rings and algebras (16-XX) 1 Topological groups, Lie groups (22-XX) 1 Partial differential equations (35-XX) 1 Geometry (51-XX) 1 Differential geometry (53-XX) 1 Statistics (62-XX) 1 Numerical analysis (65-XX) 1 Optics, electromagnetic theory (78-XX) 1 Statistical mechanics, structure of matter (82-XX) Citations by Year