Affiliation:
1. Cairo University, Faculty of Graduate Studies for Statistical Research, Egypt
Abstract
Abstract
In this work, we prove that the behavior of quantum systems during various measurement processes is fully understood through the statistical structure in quantum mechanics represented by the uncertainty principle. We also prove that any measurement process is never different from any interaction between quantum particles, and this is evidenced only by the existence of a minimum uncertainty in position characteristic of each measurement system imposed by the statistical-mathematical structure of quantum mechanics.
Publisher
Research Square Platform LLC
Reference33 articles.
1. Hermann Wimmel. Quantum Physics And Observed Reality: A Critical Interpretation Of Quantum Mechanics, page numbers-2,3, World Scientific: (1992)
2. Shabnam Siddiqui and Chandralekha Singh. "How diverse are physics instructors' attitudes and approaches to teaching undergraduate level quantum mechanics?". European Journal of Physics, Volume 38, Number 3: (2017)
3. N.BOHR. The Quantum Postulate and the Recent Development of Atomic Theory, Nature, Volume 121, Issue 3050, pp. 580–590: (1928)
4. Heisenberg, W.: 'Language and reality in modern physics', Chap. 10, pp.145{160, in Physics and Philosophy, (1959/1971).
5. Relative State Formulation of Quantum Mechanics;Everett H;Rev. Mod. Phys.,1957