Applications of Quantum Mechanics
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Editor
Prof. Dr. Marek Szopa
Prof. Dr. Marek Szopa
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Collection Editor
Department of Operations Research, College of Informatics and Communication, University of Economics in Katowice, ul. Bogucicka 3, 40-287 Katowice, Poland
Interests: quantum economics; quantum games; quantum communication
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Topical Collection Information
Dear Colleagues,
Quantum mechanics is one of the most prolific theories of all time. Despite the many controversies it has aroused since its conception, its predictions have been confirmed experimentally with incredible accuracy. It has also been used in a variety of fields, such as quantum economics (a very promising novel field of its application), quantum computation, quantum information science, quantum electronics, quantum cosmology, and quantum chemistry.
This EC aims to include relevant entries and invite more scholars to contribute to related entries on the Encyclopedia platform. It’s free of charge and each submission will undergo a formal peer review process.
Prof. Dr. Marek Szopa
Collection Editor
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Keywords
- quantum mechanics
- quantum economics
- quantum computation
- quantum information science
- quantum electronics
- quantum cosmology
- quantum chemistry
Published Papers (3 papers)
Open AccessEntry
Wavefunction Collapse Broadens Molecular Spectrum
by
Peter Lebedev-Stepanov
Viewed by 1227
Definition
Spectral lines in the optical spectra of atoms, molecules, and other quantum systems are characterized by a range of frequencies
or a range of wavelengths
, where
c is the speed of light. Such a
[...] Read more.
Spectral lines in the optical spectra of atoms, molecules, and other quantum systems are characterized by a range of frequencies
or a range of wavelengths
, where
c is the speed of light. Such a frequency or wavelength range is called the width of the spectral lines (linewidth). It is influenced by many specific factors. Thermal motion of the molecules results in broadening of the lines as a result of the Doppler effect (thermal broadening) and by their collisions (pressure broadening). The electric fields of neighboring molecules lead to Stark broadening. The linewidth to be considered here is the so-called parametric broadening (PB) of spectral lines in the optical spectrum. PB can be considered the fundamental type of broadening of the electronic vibrational–rotational (rovibronic) transitions in a molecule, which is the direct manifestation of the basic concept of the collapse of a wavefunction that is postulated by the Copenhagen interpretation of quantum mechanics. Thus, that concept appears to be not only valid but is also useful for predicting physically observable phenomena.
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Open AccessEntry
Undecidability and Quantum Mechanics
by
Canio Noce and Alfonso Romano
Cited by 2 | Viewed by 1938
Definition
Recently, great attention has been devoted to the problem of the undecidability of specific questions in quantum mechanics. In this context, it has been shown that the problem of the existence of a spectral gap, i.e., energy difference between the ground state and
[...] Read more.
Recently, great attention has been devoted to the problem of the undecidability of specific questions in quantum mechanics. In this context, it has been shown that the problem of the existence of a spectral gap, i.e., energy difference between the ground state and the first excited state, is algorithmically undecidable. Using this result herein proves that the existence of a quantum phase transition, as inferred from specific microscopic approaches, is an undecidable problem, too. Indeed, some methods, usually adopted to study quantum phase transitions, rely on the existence of a spectral gap. Since there exists no algorithm to determine whether an arbitrary quantum model is gapped or gapless, and there exist models for which the presence or absence of a spectral gap is independent of the axioms of mathematics, it infers that the existence of quantum phase transitions is an undecidable problem.
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Open AccessEntry
Foundations of Quantum Mechanics
by
Salim Yasmineh
Cited by 1 | Viewed by 2643
Definition
Quantum mechanics is a mathematical formalism that models the dynamics of physical objects. It deals with the elementary constituents of matter (atoms, subatomic and elementary particles) and of radiation. It is very accurate in predicting observable physical phenomena, but has many puzzling properties.
[...] Read more.
Quantum mechanics is a mathematical formalism that models the dynamics of physical objects. It deals with the elementary constituents of matter (atoms, subatomic and elementary particles) and of radiation. It is very accurate in predicting observable physical phenomena, but has many puzzling properties. The foundations of quantum mechanics are a domain in which physics and philosophy concur in attempting to find a fundamental physical theory that explains the puzzling features of quantum mechanics, while remaining consistent with its mathematical formalism. Several theories have been proposed for different interpretations of quantum mechanics. However, there is no consensus regarding any of these theories.
Full article
Planned Papers
The below list represents only planned manuscripts. Some of these
manuscripts have not been received by the Editorial Office yet. Papers
submitted to MDPI journals are subject to peer-review.
Title: Foundations of Quantum Mechanics
Authors: Salim Yasmineh
Title: Ensuring Security of Quantum Hardware
Authors: Rasit O. Topaloglu
