Nuclear Physics, Section B, ISSN 0550-3213, 2001, Volume 594, Issue 1, pp. 371 - 419

A systematic expansion of induced gluon radiation associated with jet production in a dense QCD plasma is derived using a reaction operator formalism. Analytic...

Opacity expansion | Reaction operator | Jet quenching | Non-abelian energy loss | 24.85.+p | 25.75.-q | 12.38.Mh | MATTER | BREMSSTRAHLUNG | QUARK-GLUON PLASMA | PHYSICS, NUCLEAR | PARTON CASCADE | non-abelian energy loss | QCD | A+A | HEAVY-ION COLLISIONS | NUCLEAR COLLISIONS | JET | jet quenching | opacity expansion | reaction operator | PHYSICS, PARTICLES & FIELDS

Opacity expansion | Reaction operator | Jet quenching | Non-abelian energy loss | 24.85.+p | 25.75.-q | 12.38.Mh | MATTER | BREMSSTRAHLUNG | QUARK-GLUON PLASMA | PHYSICS, NUCLEAR | PARTON CASCADE | non-abelian energy loss | QCD | A+A | HEAVY-ION COLLISIONS | NUCLEAR COLLISIONS | JET | jet quenching | opacity expansion | reaction operator | PHYSICS, PARTICLES & FIELDS

Journal Article

Nuclear Physics, Section B, ISSN 0550-3213, 2000, Volume 571, Issue 1, pp. 197 - 233

The modification and amplification of the gluon angular distribution produced along with hard jets in nuclear collisions is computed. We consider the limit of...

Non-abelian plasma | Parton cascade | Radiative energy loss | E+E-PHYSICS | radiative energy loss | parton cascade | PARTONS | PHYSICS, NUCLEAR | MODEL | FRAGMENTATION | COLLISIONS | RADIATIVE ENERGY-LOSS | LUND MONTE-CARLO | QCD | NUCLEI | non-abelian plasma | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

Non-abelian plasma | Parton cascade | Radiative energy loss | E+E-PHYSICS | radiative energy loss | parton cascade | PARTONS | PHYSICS, NUCLEAR | MODEL | FRAGMENTATION | COLLISIONS | RADIATIVE ENERGY-LOSS | LUND MONTE-CARLO | QCD | NUCLEI | non-abelian plasma | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

Journal Article

Journal of Physics G: Nuclear and Particle Physics, ISSN 0954-3899, 11/2005, Volume 31, Issue 11, pp. 1375 - 1390

Within the framework of the effective theory for ultrasoft field modes, a problem of an energetic colour particle interacting with ultrasoft fluctuations in...

NON-ABELIAN PLASMAS | HIGH-TEMPERATURE | DYNAMICS | TRANSPORT-THEORY | PHYSICS, NUCLEAR | AMPLITUDES | HARD THERMAL LOOPS | FINITE-TEMPERATURE | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

NON-ABELIAN PLASMAS | HIGH-TEMPERATURE | DYNAMICS | TRANSPORT-THEORY | PHYSICS, NUCLEAR | AMPLITUDES | HARD THERMAL LOOPS | FINITE-TEMPERATURE | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology

Journal Article

Acta Physica Hungarica New Series Heavy Ion Physics, ISSN 1219-7580, 2003, Volume 17, Issue 2-4, pp. 237 - 247

We discuss the the GLV (Gyulassy-Levai-Vitev) Reaction Operator formalism for computing the non-Abelian energy loss of jets propagating through hot and dense...

Non-Abelian energy loss | Jet tomography | Partonic composition of the quark-gluon plasma | non-Abelian energy loss | NUMBER | BREMSSTRAHLUNG | PHYSICS, NUCLEAR | P(T) AZIMUTHAL ASYMMETRY | SUPPRESSION | COLLISIONS | DISTRIBUTIONS | jet tomography | QUARKS | GLUONS | partonic composition of the quark-gluon plasma | PAIR PRODUCTION

Non-Abelian energy loss | Jet tomography | Partonic composition of the quark-gluon plasma | non-Abelian energy loss | NUMBER | BREMSSTRAHLUNG | PHYSICS, NUCLEAR | P(T) AZIMUTHAL ASYMMETRY | SUPPRESSION | COLLISIONS | DISTRIBUTIONS | jet tomography | QUARKS | GLUONS | partonic composition of the quark-gluon plasma | PAIR PRODUCTION

Journal Article

5.
Full Text
On the fluctuation–dissipation theorem for soft fermionic excitations in a hot QCD plasma

Nuclear Physics, Section A, ISSN 0375-9474, 2010, Volume 840, Issue 1, pp. 76 - 96

We discuss two ways of deriving the fluctuation–dissipation theorem (FDT) for soft fermion excitations in a hot non-Abelian plasma being in a thermal...

The fluctuation–dissipation theorem | Soft fermion excitations | Quark–gluon plasma | The fluctuation-dissipation theorem | Quark-gluon plasma | NON-ABELIAN PLASMAS | FIELD | BREMSSTRAHLUNG | HARD-PARTICLE SCATTERING | PHYSICS, NUCLEAR | ENERGY-LOSSES | GAUGE-THEORIES | NONLINEAR DYNAMICS | TRANSPORT-THEORY | BOSON COLLECTIVE EXCITATIONS | Physics - High Energy Physics - Phenomenology

The fluctuation–dissipation theorem | Soft fermion excitations | Quark–gluon plasma | The fluctuation-dissipation theorem | Quark-gluon plasma | NON-ABELIAN PLASMAS | FIELD | BREMSSTRAHLUNG | HARD-PARTICLE SCATTERING | PHYSICS, NUCLEAR | ENERGY-LOSSES | GAUGE-THEORIES | NONLINEAR DYNAMICS | TRANSPORT-THEORY | BOSON COLLECTIVE EXCITATIONS | Physics - High Energy Physics - Phenomenology

Journal Article

Indian Journal of Physics, ISSN 0019-5480, 12/2010, Volume 84, Issue 12, pp. 1721 - 1725

We use recent nuclear parton distributions, among them the Hirai — Kumano — Nagai (HKN) and Eskola — Paukkunen — Salgado (EPS08) parameterizations, in our...

purturbative QCD | Non-abelian jet-energy loss | Physics, general | Astrophysics and Astroparticles | EMC Effect-Cronin Effect | Physics | EMC effect-cronin effect | Purturbative QCD | PHYSICS, MULTIDISCIPLINARY | PARTON | COLLISIONS

purturbative QCD | Non-abelian jet-energy loss | Physics, general | Astrophysics and Astroparticles | EMC Effect-Cronin Effect | Physics | EMC effect-cronin effect | Purturbative QCD | PHYSICS, MULTIDISCIPLINARY | PARTON | COLLISIONS

Journal Article

中国物理C：英文版, ISSN 1674-1137, 2011, Volume 35, Issue 1, pp. 44 - 49

Using a reaction operator approach, we derive the multiple-scattering induced gluon number distribution function to all orders in powers of opacity at finite...

胶子分布函数 | 多重散射 | 有限温度 | 递归方法 | 不透明度 | 操作使用 | 红外发散 | Jet-quenching | Opacity expansion | Detailed balance | Non-abelian energy loss | ABELIAN ENERGY-LOSS | jet-quenching | non-abelian energy loss | QCD | detailed balance | BREMSSTRAHLUNG | PHYSICS, NUCLEAR | opacity expansion | GLUON RADIATION | PHYSICS, PARTICLES & FIELDS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | DISTRIBUTION FUNCTIONS | riken bnl research center | MULTIPLE SCATTERING | OPACITY | GLUONS | ABSORPTION | INFRARED DIVERGENCES

胶子分布函数 | 多重散射 | 有限温度 | 递归方法 | 不透明度 | 操作使用 | 红外发散 | Jet-quenching | Opacity expansion | Detailed balance | Non-abelian energy loss | ABELIAN ENERGY-LOSS | jet-quenching | non-abelian energy loss | QCD | detailed balance | BREMSSTRAHLUNG | PHYSICS, NUCLEAR | opacity expansion | GLUON RADIATION | PHYSICS, PARTICLES & FIELDS | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | DISTRIBUTION FUNCTIONS | riken bnl research center | MULTIPLE SCATTERING | OPACITY | GLUONS | ABSORPTION | INFRARED DIVERGENCES

Journal Article

International Journal of Modern Physics A, ISSN 0217-751X, 06/2005, Volume 20, Issue 16, pp. 3777 - 3782

The status of RHIC theory and phenomenology is reviewed with an emphasis on the indications for the creation of a new deconfined state of matter. The critical...

Coherent power corrections | Non-Abelian energy loss | Soft hadrons and thermalization | Perturbative QCD | Relativistic heavy ions | relativistic heavy ions | perturbative QCD | MATTER | soft hadrons and thermalization | non-Abelian energy loss | coherent power corrections | ENERGY-LOSS | HEAVY-ION COLLISIONS | PHYSICS, NUCLEAR | PHYSICS, PARTICLES & FIELDS | Nuclear physics | Investigations | Collisions (Nuclear physics) | Physics - High Energy Physics - Phenomenology

Coherent power corrections | Non-Abelian energy loss | Soft hadrons and thermalization | Perturbative QCD | Relativistic heavy ions | relativistic heavy ions | perturbative QCD | MATTER | soft hadrons and thermalization | non-Abelian energy loss | coherent power corrections | ENERGY-LOSS | HEAVY-ION COLLISIONS | PHYSICS, NUCLEAR | PHYSICS, PARTICLES & FIELDS | Nuclear physics | Investigations | Collisions (Nuclear physics) | Physics - High Energy Physics - Phenomenology

Journal Article

Russian Physics Journal, ISSN 1064-8887, 4/2013, Volume 55, Issue 11, pp. 1351 - 1361

A generalization of the Lagrangian description of a relativistic color charged spinning particle interacting with external non-Abelian gauge and fermion...

Condensed Matter Physics | Optics, Optoelectronics, Plasmonics and Optical Devices | Nuclear Physics, Heavy Ions, Hadrons | Theoretical, Mathematical and Computational Physics | external non-Abelian gauge and fermion fields | Physics, general | Grassmannian color charges | classical colored spinning particle | Physics | ENERGY-LOSSES | NONLINEAR DYNAMICS | PHYSICS, MULTIDISCIPLINARY | GAUGE FIELD | WORLDLINE PATH-INTEGRALS | SOFT FERMION EXCITATIONS | COUPLINGS | SCALAR

Condensed Matter Physics | Optics, Optoelectronics, Plasmonics and Optical Devices | Nuclear Physics, Heavy Ions, Hadrons | Theoretical, Mathematical and Computational Physics | external non-Abelian gauge and fermion fields | Physics, general | Grassmannian color charges | classical colored spinning particle | Physics | ENERGY-LOSSES | NONLINEAR DYNAMICS | PHYSICS, MULTIDISCIPLINARY | GAUGE FIELD | WORLDLINE PATH-INTEGRALS | SOFT FERMION EXCITATIONS | COUPLINGS | SCALAR

Journal Article

Physical Review D - Particles, Fields, Gravitation and Cosmology, ISSN 1550-7998, 03/2010, Volume 81, Issue 6

We derive the transport equations of quark-gluon plasma in the quasilinear approximation. The equations are either of the Balescu-Lenard or Fokker-Planck form....

NON-ABELIAN PLASMAS | ENERGY-LOSSES | NONLINEAR DYNAMICS | ASTRONOMY & ASTROPHYSICS | BOLTZMANN-EQUATION | HARD-PARTICLE SCATTERING | SOFT FERMION EXCITATIONS | COLOR DIFFUSION | HOT QCD PLASMA | BOSON COLLECTIVE EXCITATIONS | THERMAL LOOPS | PHYSICS, PARTICLES & FIELDS

NON-ABELIAN PLASMAS | ENERGY-LOSSES | NONLINEAR DYNAMICS | ASTRONOMY & ASTROPHYSICS | BOLTZMANN-EQUATION | HARD-PARTICLE SCATTERING | SOFT FERMION EXCITATIONS | COLOR DIFFUSION | HOT QCD PLASMA | BOSON COLLECTIVE EXCITATIONS | THERMAL LOOPS | PHYSICS, PARTICLES & FIELDS

Journal Article

Physical Review X, ISSN 2160-3308, 2015, Volume 5, Issue 4, p. 041040

Engineering complex non-Abelian anyon models with simple physical systems is crucial for topological quantum computation. Unfortunately, the simplest systems...

POLAR-MOLECULES | MEMORIES | MODELS | PHYSICS, MULTIDISCIPLINARY | NON-ABELIAN ANYONS | COMPLEXITY | Physics - Quantum Physics

POLAR-MOLECULES | MEMORIES | MODELS | PHYSICS, MULTIDISCIPLINARY | NON-ABELIAN ANYONS | COMPLEXITY | Physics - Quantum Physics

Journal Article

Physical Review B, ISSN 2469-9950, 06/2016, Volume 93, Issue 22

Magnetic skyrmions are highly mobile nanoscale topological spin textures. We show, both analytically and numerically, that a magnetic skyrmion of an even...

PHYSICS, CONDENSED MATTER | VORTICES | ANYONS | FERMIONS | NON-ABELIAN STATISTICS | QUANTUM COMPUTATION | SUPERCONDUCTORS | Particle theory | Condensed matter | Surface layer | Superconductivity | Coupling | Hypothetical particles | Statistics | Texture

PHYSICS, CONDENSED MATTER | VORTICES | ANYONS | FERMIONS | NON-ABELIAN STATISTICS | QUANTUM COMPUTATION | SUPERCONDUCTORS | Particle theory | Condensed matter | Surface layer | Superconductivity | Coupling | Hypothetical particles | Statistics | Texture

Journal Article

Physical Review B, ISSN 2469-9950, 03/2016, Volume 93, Issue 12

Z(d) parafermions are exotic non-Abelian quasiparticles generalizing Majorana fermions, which correspond to the case d = 2. In contrast to Majorana fermions,...

PHYSICS, CONDENSED MATTER | MECHANICS | HALL STATES | COMPUTATION | STATISTICS | NON-ABELIAN ANYONS | Quantum computing | Phases | Fermions | Condensed matter | Braiding | Grounds | Representations | Compatibility

PHYSICS, CONDENSED MATTER | MECHANICS | HALL STATES | COMPUTATION | STATISTICS | NON-ABELIAN ANYONS | Quantum computing | Phases | Fermions | Condensed matter | Braiding | Grounds | Representations | Compatibility

Journal Article

Physical Review Letters, ISSN 0031-9007, 06/2014, Volume 112, Issue 24, p. 246403

We propose a scheme to induce Z(3) parafermion modes, exotic zero-energy bound states that possess non-Abelian statistics. We consider a minimal setup...

STATES | SOLITONS | LUTTINGER-LIQUID | PHYSICS, MULTIDISCIPLINARY | SUPERCONDUCTOR | QUANTUM COMPUTATION | MAJORANA FERMIONS | SIGNATURE | WIRE | NON-ABELIAN ANYONS | Physics - Mesoscale and Nanoscale Physics

STATES | SOLITONS | LUTTINGER-LIQUID | PHYSICS, MULTIDISCIPLINARY | SUPERCONDUCTOR | QUANTUM COMPUTATION | MAJORANA FERMIONS | SIGNATURE | WIRE | NON-ABELIAN ANYONS | Physics - Mesoscale and Nanoscale Physics

Journal Article

Nuclear Physics, Section B, ISSN 0550-3213, 01/2016, Volume 902, Issue C, pp. 1 - 57

Assuming that the observed pattern of 3-neutrino mixing is related to the existence of a (lepton) flavour symmetry, corresponding to a non-Abelian discrete...

MASSES | DELTA(6N) | PARAMETRIZATION | QUARK | OSCILLATIONS | NEUTRINOS | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology | Phenomenology | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Nuclear Experiment | neutrino mixing; discrete non-Abelian lepton flavour symmetries; residual symmetries; leptonic Dirac CP violation; sum rules | Nuclear and particle physics. Atomic energy. Radioactivity | FIS/02 - Theoretical Physics, Models and Mathematical Methods

MASSES | DELTA(6N) | PARAMETRIZATION | QUARK | OSCILLATIONS | NEUTRINOS | PHYSICS, PARTICLES & FIELDS | Physics - High Energy Physics - Phenomenology | Phenomenology | High Energy Physics - Phenomenology | High Energy Physics | Nuclear and High Energy Physics | Nuclear Experiment | neutrino mixing; discrete non-Abelian lepton flavour symmetries; residual symmetries; leptonic Dirac CP violation; sum rules | Nuclear and particle physics. Atomic energy. Radioactivity | FIS/02 - Theoretical Physics, Models and Mathematical Methods

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 3/2019, Volume 2019, Issue 3, pp. 1 - 55

We use supersymmetric localization techniques to study the low-energy dynamics of BPS vortex-strings in four-dimensional N = 2 $$ \mathcal{N}=2 $$ theories. We...

Extended Supersymmetry | Solitons Monopoles and Instantons | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Supersymmetry and Duality | Physics | Nonperturbative Effects | Elementary Particles, Quantum Field Theory | HIGGS PHASE | NON-ABELIAN VORTICES | MONOPOLES | PHYSICS, PARTICLES & FIELDS | Low energy | Supersymmetry | Dynamic tests | Partitions | Decoupling | Energy spectra | Partitions (mathematics) | Coupling | Parameter identification | Localization | Strings | Quantum theory

Extended Supersymmetry | Solitons Monopoles and Instantons | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Supersymmetry and Duality | Physics | Nonperturbative Effects | Elementary Particles, Quantum Field Theory | HIGGS PHASE | NON-ABELIAN VORTICES | MONOPOLES | PHYSICS, PARTICLES & FIELDS | Low energy | Supersymmetry | Dynamic tests | Partitions | Decoupling | Energy spectra | Partitions (mathematics) | Coupling | Parameter identification | Localization | Strings | Quantum theory

Journal Article

Physics Reports, ISSN 0370-1573, 05/2015, Volume 579, pp. 1 - 226

The purpose of this paper is to review the recent progress in understanding quark confinement. The emphasis of this review is placed on how to obtain a...

Wilson loop | Quark confinement | Maximally Abelian gauge | Magnetic monopole | Dual superconductivity | Abelian projection | Non-Abelian Stokes theorem | STRING TENSION | STOCHASTIC CONFINEMENT | PHYSICS, MULTIDISCIPLINARY | EFFECTIVE GAUGE-THEORY | CENTER VORTEX MODEL | MAGNETIC MONOPOLES | INFRARED SECTOR | DIMENSIONAL REDUCTION | FINITE TRANSFORMATIONS | FADDEEV-NIEMI DECOMPOSITION | COMPACT LATTICE FORMULATION | Superconductors | Analysis

Wilson loop | Quark confinement | Maximally Abelian gauge | Magnetic monopole | Dual superconductivity | Abelian projection | Non-Abelian Stokes theorem | STRING TENSION | STOCHASTIC CONFINEMENT | PHYSICS, MULTIDISCIPLINARY | EFFECTIVE GAUGE-THEORY | CENTER VORTEX MODEL | MAGNETIC MONOPOLES | INFRARED SECTOR | DIMENSIONAL REDUCTION | FINITE TRANSFORMATIONS | FADDEEV-NIEMI DECOMPOSITION | COMPACT LATTICE FORMULATION | Superconductors | Analysis

Journal Article

Journal of High Energy Physics, ISSN 1126-6708, 9/2016, Volume 2016, Issue 9, pp. 1 - 44

Using the worldline formalism of the Dirac field with a non-Abelian gauge symmetry we show how to describe the matter field transforming in an arbitrary...

Wilson, ’t Hooft and Polyakov loops | Gauge Symmetry | Scattering Amplitudes | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | t Hooft and Polyakov loops | FIELD-THEORY | QUANTUM | Wilson | PATH-INTEGRALS | PHYSICS, PARTICLES & FIELDS | Mathematical analysis | Scattering amplitude | Representations | Gages | Formalism | Colour | Gauges | Symmetry | Mathematical Physics | Nuclear and High Energy Physics | Non-Abelian gauge theory | High Energy Physics - Theory | Lattice | Gauge Symmetry; Scattering Amplitudes; Wilson, ’t Hooft and Polyakov loops; High Energy Physics - Theory; High Energy Physics - Theory; Mathematical Physics; Mathematics - Mathematical Physics; Quantum Physics; Nuclear and High Energy Physics | High Energy Physics | Worldline formalism | Quantum field theory

Wilson, ’t Hooft and Polyakov loops | Gauge Symmetry | Scattering Amplitudes | Quantum Physics | Quantum Field Theories, String Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | t Hooft and Polyakov loops | FIELD-THEORY | QUANTUM | Wilson | PATH-INTEGRALS | PHYSICS, PARTICLES & FIELDS | Mathematical analysis | Scattering amplitude | Representations | Gages | Formalism | Colour | Gauges | Symmetry | Mathematical Physics | Nuclear and High Energy Physics | Non-Abelian gauge theory | High Energy Physics - Theory | Lattice | Gauge Symmetry; Scattering Amplitudes; Wilson, ’t Hooft and Polyakov loops; High Energy Physics - Theory; High Energy Physics - Theory; Mathematical Physics; Mathematics - Mathematical Physics; Quantum Physics; Nuclear and High Energy Physics | High Energy Physics | Worldline formalism | Quantum field theory

Journal Article

The European Physical Journal B, ISSN 1434-6028, 10/2015, Volume 88, Issue 10, pp. 1 - 9

Ultracold atoms in an optical lattice provide a platform for the realization of the topological superfluid. Motivated by the recent cold atom realization of...

Condensed Matter Physics | Solid State Physics | Fluid- and Aerodynamics | Solid State and Materials | Physics, general | Statistical Physics, Dynamical Systems and Complexity | Physics | GASES | PHYSICS, CONDENSED MATTER | STATES | PARITY | QUANTUM | FERMIONS | NON-ABELIAN STATISTICS | 2-DIMENSIONAL SYSTEMS | REALIZATION | FESHBACH RESONANCES | MOLECULES

Condensed Matter Physics | Solid State Physics | Fluid- and Aerodynamics | Solid State and Materials | Physics, general | Statistical Physics, Dynamical Systems and Complexity | Physics | GASES | PHYSICS, CONDENSED MATTER | STATES | PARITY | QUANTUM | FERMIONS | NON-ABELIAN STATISTICS | 2-DIMENSIONAL SYSTEMS | REALIZATION | FESHBACH RESONANCES | MOLECULES

Journal Article