Article citationsMore>>
Häffner, H., Hänsel, W., Roos, C.F., Benhelm, J., Chek-al-kar, D., Chwalla, M., Körber, T., Rapol, U.D., Riebe, M., Schmidt, P.O., Becher, C., Gühne, O., Dür, W. and Blatt, R. (2005) Nature, 438, 643-646. https://doi.org/10.1038/nature04279
has been cited by the following article:
-
TITLE:
Quantum Inverse Measurement Theory Contributing to the Birth of Interpretation System of Quantum Mechanics of Local-Realism and Determinism
AUTHORS:
Runsheng Tu
KEYWORDS:
Quantum Inverse Measurement, Local Realism, Determinism, Quantum Entanglement, Tu’s Measurement View of Quantum Mechanics, Light-Knot Electronic Structure Model
JOURNAL NAME:
Journal of Modern Physics,
Vol.8 No.8,
July
21,
2017
ABSTRACT: The existing interpretation of quantum mechanics is contrary to common sense. The existing quantum mechanical interpretation schemes are puzzling. The confusing theory is unconvincing, and needs to be amended and completed. The successful interpretation program of quantum mechanics of local-realism and determinism is undoubtedly the most attractive. Preparing the interpretation program deserves to be chosen as a research goal. It is a very good premise to believe that an object particle consists of light-knot of monochromatic waves. According to this premise, the erroneous recognition about “superposition principle, wave-particle duality and uncertainty principle” can be corrected. Under this premise, above research goal is achieved by establishing, applying quantum mechanics inverse measurement theory, adhering to the principle that there must be a complete empirical chain in the derivation process of experimental conclusion, and using the side effect caused by accompanying-light to explain the diffraction experiment of object particles. Electron secondarily diffraction and other experiments directly prove that there is the measurement (observation) which may not destroy quantum coherence. The diffraction experiments of all kinds of particles show that the Keeping and playing of the coherence of moving particles in the vacuum have nothing to do with their previous experience. These are the existing experiments, to be found, that support the theory of quantum inverse measurements. The verification experiment of quantum inverse measurement is designed. The absolute superiorities of quantum inverse measurement and the new view of measurement of quantum mechanics are listed. These superiorities are that: it has the characteristics of local-realism and determinism; it is not contrary to common sense and there is no confusing place; it can predict several phenomena that cannot be predicted by other theories. A solid theoretical foundation has been laid for “correctly understanding the microscopic world” and establishment of local realism quantum mechanics.
Related Articles:
-
Xiaochun Mei
-
Giancarlo T. Tomezzoli
-
Leo Depuydt
-
Tielong LI, Shujing LI, Shuaima WANG, Yi AN, Zhaohui JIN
-
Yasuhito Hayashi, Kiyomi Fuchigami, Yoshinari Taguchi, Masato Tanaka