Quantum Superposition, Collapse of Wave Function, Quantum Measurement   and Nonadiabatic Dressed States

I. G. Koprinkov

arXiv:2309.17377·quant-ph·December 25, 2023

Quantum Superposition, Collapse of Wave Function, Quantum Measurement and Nonadiabatic Dressed States

I. G. Koprinkov

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TL;DR

This paper reexamines quantum superposition, wave function collapse, and measurement using nonadiabatic dressed states and experimental data, revealing underlying physical mechanisms.

Contribution

It introduces a novel approach using nonadiabatic dressed states to explain quantum measurement phenomena and transitions.

Findings

01

Identifies physical mechanisms behind wave function collapse.

02

Provides a new theoretical framework for quantum measurement.

03

Correlates experimental observations with nonadiabatic dressed state theory.

Abstract

Quantum superposition, collapse of wave function and quantum measurement problem are reexamined based on nonadiabatic dressed states and experimental observations on the quantum transitions. The physical mechanisms behind these processes are revealed.

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Taxonomy

TopicsQuantum optics and atomic interactions · Cold Atom Physics and Bose-Einstein Condensates · Quantum Information and Cryptography