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Sains Malaysiana 25(1): 59-75 (1996) Sains Fizis dan Gunaan/ Physical and Applied Sciences
An Interaction Model Based on An Interpretation of the First-Quantized Relativistic Schrodinger Equation
Khalid Md. Nor, Ithnin Abdul Jalil & Hassan Abu Kasim labatan Fizik, Universiti Malaya 59100 Kuala Lumpur
ABSTRACT
The relativistic Schrodinger equation is reinterpreted as describing a classical particle that mutually-interacts with other objects via electromagnetic-like gravity waves. The accompanying derivation equates the usual quantum mechanical energy and momentum operators to the effects of negative or attractive energy. Lorentz-like transformation equations are obtained that yield the uncertainty principle such that quantum uncertainty is ascribed to the disregard of a magnetic-like component of a gravity wave. Finally, quantum-level Maxwell-like equations that involve the above gravity waves are derived.
ABSTRACT
Persamaan Schrodinger kerelatifan ditafsirkan sebagai memperihalkan suatu zarah klasik yang berinteraksi dengan jasad-jasad lain melalui gelombang graviti yang berciri keelektromagnetan. Terbitan sampingan menyamakan pengoperasi-pengeoperasi tenaga dan momentum mekanik kuantum dengan kesan-kesan tenaga negatif atau tarikan. Persamaan-persamaan bermirip transformasi Lorentz diperolehi yang menerbitkan prinsip ketakpastian dan memberi ketakpastian kuantum sebagai kesan pengabaian bahagian gelombang graviti yang bermirip kemagnetan. Akhir sekali, persamaan-persamaan diparas kuntum yang bermirip persamaan-persamaan Maxwell diterbitkan dan melibatkan gelombang graviti yang tersebut di atas.
RUJUKAN/REFERENCES
Novozhilov, Y.U. 1975. Introduction to Elementary Particle Theory. Oxford: Pergamon Press. Lee Swee Cheng & Mustaffa Hj. Abdullah. 1992. Teori Kerelatifan Khas. Kuala Lumpur: Dewan Bahasa dan Pustaka. Lorimer, P. 1990. The Special Theory of Relativity for Mathematics Students. Singapore: World Scientific. Ohanian, H.C. 1988. Classical Electrodynamics. Boston: Allyn & Bacon, Inc. Schroder, U.E. 1990. Special Relativity. Singapore: World Scientific.
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