It is mainly believed that the “mystery” behind understanding Quantum Mechanics (QM) and the worldwide drives to construct quantity computers using “Entanglement”, maybe understood from by virtue of what the two-beam superposition effect (SE) emerges in a group a 2-slit, and a Mach-Zehnder Interferometer (MZI). This chapter rehabilitates the classic analyses of these two superposition effects, while misusing functional asymmetries, either deliberately made acquainted or intrinsic in two together-beam apparatuses. We are using mathematical etiquette already traditional in classical optics because 1800’s, but with the extra prominence that any final dossier generation requires few real material interaction between the indicator and the two light signals together stimulating the detecting molecules. This detracting step of physical interplay process is not explicitly underscored by either the simple or the quantum physics. However, the irregularity, either in the propagation or in the interaction process, is took advantage of to bring out the contradictions accompanying the QM interpretations. For the 2-slit structure, we deliberately introduce irregularity on one of the slits. For MZI, the irregularity is already built into the chaste reflection characteristic of a typical beams splitter.
Author(s) Details:
Chandrasekhar Roychoudhuri,
Physics Department, University of Connecticut,
Storrs, CT, USA.
Please see the link here: https://stm.bookpi.org/FRAPS-V3/article/view/10344
Keywords: Asymmetry, interferometer, quantum mechanics, mach-zehnder
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