Search
Feedback
About UniCat 
Help
News
| Listing 1 - 9 of 9 |
Sort by
|
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Special Issue in honour of Prof. Yves Brihaye, on the occasion of his 65th birthday. The issue is mainly dedicated to the study of compact objects and solutions to Einstein-Yang-Mills equations and extensions thereof, topics to which Prof. Y. Brihaye contributed very significantly.
Research & information: general --- Physics --- deconfinement --- Matter-gravity coupling --- Yang–Mills theory --- Q-ball --- boson star --- coadjoint orbits --- conformal group --- Poincaré group --- solitons --- boson stars --- Dirac stars --- Spontaneous Symmetry Breaking --- BEH field mass spectrum --- LHC experiments --- black holes --- scalar fields --- Einstein–Maxwell–scalar theory --- gravity models --- Chern–Simons gravity --- exact solutions --- wormholes --- NUT charge --- higher curvature theories
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Special Issue in honour of Prof. Yves Brihaye, on the occasion of his 65th birthday. The issue is mainly dedicated to the study of compact objects and solutions to Einstein-Yang-Mills equations and extensions thereof, topics to which Prof. Y. Brihaye contributed very significantly.
deconfinement --- Matter-gravity coupling --- Yang–Mills theory --- Q-ball --- boson star --- coadjoint orbits --- conformal group --- Poincaré group --- solitons --- boson stars --- Dirac stars --- Spontaneous Symmetry Breaking --- BEH field mass spectrum --- LHC experiments --- black holes --- scalar fields --- Einstein–Maxwell–scalar theory --- gravity models --- Chern–Simons gravity --- exact solutions --- wormholes --- NUT charge --- higher curvature theories
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Special Issue in honour of Prof. Yves Brihaye, on the occasion of his 65th birthday. The issue is mainly dedicated to the study of compact objects and solutions to Einstein-Yang-Mills equations and extensions thereof, topics to which Prof. Y. Brihaye contributed very significantly.
Research & information: general --- Physics --- deconfinement --- Matter-gravity coupling --- Yang–Mills theory --- Q-ball --- boson star --- coadjoint orbits --- conformal group --- Poincaré group --- solitons --- boson stars --- Dirac stars --- Spontaneous Symmetry Breaking --- BEH field mass spectrum --- LHC experiments --- black holes --- scalar fields --- Einstein–Maxwell–scalar theory --- gravity models --- Chern–Simons gravity --- exact solutions --- wormholes --- NUT charge --- higher curvature theories
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book contains seven reviews and four research articles on the various modern approaches to the problem of quark confinement in quantum chromodynamics (QCD). These approaches include microscopic models of the Yang–Mills vacuum, which are based on the condensation of magnetic monopoles and center vortices, as well as the models of the confining quark-antiquark string. Possible applications of these models to the analysis of the novel superinsulating state, which emerges in such condensed-matter systems as Josephson junction arrays, are further discussed in one of the reviews. Two reviews from this collection discuss the approaches towards the analytic construction of effective confining theories, at the classical level and within the center-vortex model of the Yang–Mills vacuum. Other aspects of non-perturbative physics addressed by this collection include a possible connection between the localization of low-lying Dirac eigenmodes with the deconfinement and the chiral QCD phase transitions, as well as the role of topology in baryon-rich matter. Last but not least, a novel model of dark matter, based on ultralight axion particles, whose masses are arising due to distinct SU(2) Yang–Mills scales and the Planck mass, is suggested and developed in one of the contributed articles.
Research & information: general --- quantum chromodynamics --- confinement --- center vortex model --- vacuum structure --- cooling --- Lattice Gauge Theories --- Effective String Theories --- localization --- QCD --- lattice gauge theory --- finite temperature --- galaxy rotation curves --- low surface brightness --- dark matter --- dark energy --- ultralight axion particles --- cores --- halos --- mass-density --- profiles --- pure Yang–Mills theory --- monopoles --- topological interactions --- ensembles and effective fields --- topological solitons --- higher order theories --- gauge theory --- effective field theory --- magnetic flux symmetry --- chiral symmetry --- monopole --- lattice QCD --- spontaneous symmetry breaking --- Abelian projection --- magnetic catalysis --- magnetic disorder --- confinement models --- center vortices --- magnetic monopoles --- quark condensate --- topology --- lattice field theory --- dense matter --- phase transitions --- n/a --- pure Yang-Mills theory
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Symmetry is one of the most important notions in natural science; it lies at the heart of fundamental laws of nature and serves as an important tool for understanding the properties of complex systems, both classical and quantum. Another trend, which has in recent years undergone intensive development, is mesoscopic physics. This branch of physics also combines classical and quantum ideas and methods. Two main directions can be distinguished in mesoscopic physics. One is the study of finite quantum systems of mesoscopic sizes. Such systems, which are between the atomic and macroscopic scales, exhibit a variety of novel phenomena and find numerous applications in creating modern electronic and spintronic devices. At the same time, the behavior of large systems can be influenced by mesoscopic effects, which provides another direction within the framework of mesoscopic physics. The aim of the present book is to emphasize the phenomena that lie at the crossroads between the concept of symmetry and mesoscopic physics.
Research & information: general --- Bose systems --- asymptotic symmetry breaking --- Bose–Einstein condensation --- particle fluctuations --- stability of Bose systems --- fractals --- small-angle scattering --- form factor --- structural properties --- dimension spectra --- pair distance distribution function --- stochastic dynamics --- symmetry breaking --- field-theoretic renormalization group --- Bose–Einstein condensates --- density --- position variance --- momentum variance --- angular-momentum variance --- harmonic-interaction model --- MCTDHB --- particle-hole symmetry --- metal–insulator transition --- random gap model --- Monte Carlo simulations --- structure factor --- quantum droplet --- binary Bose–Einstein condensate --- modulational instability --- graphene --- ripple --- transport --- symmetry --- quantum dot --- Kramers degeneracy --- spin-orbit interaction --- tight-binding approach --- Bose-Einstein condensates --- Josephson oscillations --- spontaneous symmetry breaking --- Thomas-Fermi approximation --- dynamical chaos --- ground states --- perturbation theory
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book contains seven reviews and four research articles on the various modern approaches to the problem of quark confinement in quantum chromodynamics (QCD). These approaches include microscopic models of the Yang–Mills vacuum, which are based on the condensation of magnetic monopoles and center vortices, as well as the models of the confining quark-antiquark string. Possible applications of these models to the analysis of the novel superinsulating state, which emerges in such condensed-matter systems as Josephson junction arrays, are further discussed in one of the reviews. Two reviews from this collection discuss the approaches towards the analytic construction of effective confining theories, at the classical level and within the center-vortex model of the Yang–Mills vacuum. Other aspects of non-perturbative physics addressed by this collection include a possible connection between the localization of low-lying Dirac eigenmodes with the deconfinement and the chiral QCD phase transitions, as well as the role of topology in baryon-rich matter. Last but not least, a novel model of dark matter, based on ultralight axion particles, whose masses are arising due to distinct SU(2) Yang–Mills scales and the Planck mass, is suggested and developed in one of the contributed articles.
quantum chromodynamics --- confinement --- center vortex model --- vacuum structure --- cooling --- Lattice Gauge Theories --- Effective String Theories --- localization --- QCD --- lattice gauge theory --- finite temperature --- galaxy rotation curves --- low surface brightness --- dark matter --- dark energy --- ultralight axion particles --- cores --- halos --- mass-density --- profiles --- pure Yang–Mills theory --- monopoles --- topological interactions --- ensembles and effective fields --- topological solitons --- higher order theories --- gauge theory --- effective field theory --- magnetic flux symmetry --- chiral symmetry --- monopole --- lattice QCD --- spontaneous symmetry breaking --- Abelian projection --- magnetic catalysis --- magnetic disorder --- confinement models --- center vortices --- magnetic monopoles --- quark condensate --- topology --- lattice field theory --- dense matter --- phase transitions --- n/a --- pure Yang-Mills theory
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Symmetry is one of the most important notions in natural science; it lies at the heart of fundamental laws of nature and serves as an important tool for understanding the properties of complex systems, both classical and quantum. Another trend, which has in recent years undergone intensive development, is mesoscopic physics. This branch of physics also combines classical and quantum ideas and methods. Two main directions can be distinguished in mesoscopic physics. One is the study of finite quantum systems of mesoscopic sizes. Such systems, which are between the atomic and macroscopic scales, exhibit a variety of novel phenomena and find numerous applications in creating modern electronic and spintronic devices. At the same time, the behavior of large systems can be influenced by mesoscopic effects, which provides another direction within the framework of mesoscopic physics. The aim of the present book is to emphasize the phenomena that lie at the crossroads between the concept of symmetry and mesoscopic physics.
Bose systems --- asymptotic symmetry breaking --- Bose–Einstein condensation --- particle fluctuations --- stability of Bose systems --- fractals --- small-angle scattering --- form factor --- structural properties --- dimension spectra --- pair distance distribution function --- stochastic dynamics --- symmetry breaking --- field-theoretic renormalization group --- Bose–Einstein condensates --- density --- position variance --- momentum variance --- angular-momentum variance --- harmonic-interaction model --- MCTDHB --- particle-hole symmetry --- metal–insulator transition --- random gap model --- Monte Carlo simulations --- structure factor --- quantum droplet --- binary Bose–Einstein condensate --- modulational instability --- graphene --- ripple --- transport --- symmetry --- quantum dot --- Kramers degeneracy --- spin-orbit interaction --- tight-binding approach --- Bose-Einstein condensates --- Josephson oscillations --- spontaneous symmetry breaking --- Thomas-Fermi approximation --- dynamical chaos --- ground states --- perturbation theory
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
This book contains seven reviews and four research articles on the various modern approaches to the problem of quark confinement in quantum chromodynamics (QCD). These approaches include microscopic models of the Yang–Mills vacuum, which are based on the condensation of magnetic monopoles and center vortices, as well as the models of the confining quark-antiquark string. Possible applications of these models to the analysis of the novel superinsulating state, which emerges in such condensed-matter systems as Josephson junction arrays, are further discussed in one of the reviews. Two reviews from this collection discuss the approaches towards the analytic construction of effective confining theories, at the classical level and within the center-vortex model of the Yang–Mills vacuum. Other aspects of non-perturbative physics addressed by this collection include a possible connection between the localization of low-lying Dirac eigenmodes with the deconfinement and the chiral QCD phase transitions, as well as the role of topology in baryon-rich matter. Last but not least, a novel model of dark matter, based on ultralight axion particles, whose masses are arising due to distinct SU(2) Yang–Mills scales and the Planck mass, is suggested and developed in one of the contributed articles.
Research & information: general --- quantum chromodynamics --- confinement --- center vortex model --- vacuum structure --- cooling --- Lattice Gauge Theories --- Effective String Theories --- localization --- QCD --- lattice gauge theory --- finite temperature --- galaxy rotation curves --- low surface brightness --- dark matter --- dark energy --- ultralight axion particles --- cores --- halos --- mass-density --- profiles --- pure Yang-Mills theory --- monopoles --- topological interactions --- ensembles and effective fields --- topological solitons --- higher order theories --- gauge theory --- effective field theory --- magnetic flux symmetry --- chiral symmetry --- monopole --- lattice QCD --- spontaneous symmetry breaking --- Abelian projection --- magnetic catalysis --- magnetic disorder --- confinement models --- center vortices --- magnetic monopoles --- quark condensate --- topology --- lattice field theory --- dense matter --- phase transitions
Book
Year: 2022 Publisher: Basel MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Symmetry is one of the most important notions in natural science; it lies at the heart of fundamental laws of nature and serves as an important tool for understanding the properties of complex systems, both classical and quantum. Another trend, which has in recent years undergone intensive development, is mesoscopic physics. This branch of physics also combines classical and quantum ideas and methods. Two main directions can be distinguished in mesoscopic physics. One is the study of finite quantum systems of mesoscopic sizes. Such systems, which are between the atomic and macroscopic scales, exhibit a variety of novel phenomena and find numerous applications in creating modern electronic and spintronic devices. At the same time, the behavior of large systems can be influenced by mesoscopic effects, which provides another direction within the framework of mesoscopic physics. The aim of the present book is to emphasize the phenomena that lie at the crossroads between the concept of symmetry and mesoscopic physics.
Research & information: general --- Bose systems --- asymptotic symmetry breaking --- Bose–Einstein condensation --- particle fluctuations --- stability of Bose systems --- fractals --- small-angle scattering --- form factor --- structural properties --- dimension spectra --- pair distance distribution function --- stochastic dynamics --- symmetry breaking --- field-theoretic renormalization group --- Bose–Einstein condensates --- density --- position variance --- momentum variance --- angular-momentum variance --- harmonic-interaction model --- MCTDHB --- particle-hole symmetry --- metal–insulator transition --- random gap model --- Monte Carlo simulations --- structure factor --- quantum droplet --- binary Bose–Einstein condensate --- modulational instability --- graphene --- ripple --- transport --- symmetry --- quantum dot --- Kramers degeneracy --- spin-orbit interaction --- tight-binding approach --- Bose-Einstein condensates --- Josephson oscillations --- spontaneous symmetry breaking --- Thomas-Fermi approximation --- dynamical chaos --- ground states --- perturbation theory
| Listing 1 - 9 of 9 |
Sort by
|