Wikipedia talk:Articles for deletion/Interaction without interaction

Yyhuang1926 (talk) 14:46, 26 May 2016 (UTC) One physical quantity does not interact or couple with the other physical quantity, when we measure the physical quantity in classical physics, the other physical quantity will not affect the results of the measured physical quantity. However, in quantum physics the other interaction-free physical quantity indeed affect the results during the physical quantity is measured. This new phenomenon in quantum measurement has been firstly proposed in my papers[Y.Y. Huang, J. Korea. Phys. Soc. 64, 775 (2014), Y.Y. Huang, Gen. Relativ. Gravit. 46, 1614 (2014)]. This new result is always valid for a classical harmonic vibration, because it origins from the non-unity trace of the state of a classical harmonic oscillator during a shorter time interval than its period. Now I have found the two measured physical quantity, quantum entanglement of two two-level atoms[Y.Y. Huang, Opt. Rev. 23, 92 (2016)] and the number of atoms reaching its detector for an atomic (ion) beam[Y.Y. Huang, J. Korea. Phys. Soc. 64, 775 (2014)].

The new result is coined 'interaction without interaction' in the paper [Y.Y. Huang, Opt. Rev. 23, 92 (2016)]. The coinage follows from John Wheeler's style, for example Wheeler's coinages include 'mass without mass','charge without charge' and 'law without law' [C. Misner, K. Thorne and W. Zurek, Phys. Today, 64(4), 40-46 (2009)].

My paper to be published describes a specific experimental design, in which the measurement effect for an ion beam may easily be verified with today's techniques. However, the paper about an experimental design includes little physical thoughts.