1 edition of **Strongly Interacting Matter in Magnetic Fields** found in the catalog.

- 221 Want to read
- 18 Currently reading

Published
**2013**
by Springer Berlin Heidelberg, Imprint: Springer in Berlin, Heidelberg
.

Written in English

- Nuclear physics,
- Magnetic Materials Magnetism,
- Particle and Nuclear Physics,
- Nuclear Physics, Heavy Ions, Hadrons,
- Astrophysics and Cosmology Astronomy,
- Magnetism,
- String Theory Quantum Field Theories,
- Astronomy,
- Physics

The physics of strongly interacting matter in an external magnetic field is presently emerging as a topic of great cross-disciplinary interest for particle, nuclear, astro- and condensed matter physicists. It is known that strong magnetic fields are created in heavy ion collisions, an insight that has made it possible to study a variety of surprising and intriguing phenomena that emerge from the interplay of quantum anomalies, the topology of non-Abelian gauge fields, and the magnetic field. In particular, the non-trivial topological configurations of the gluon field induce a non-dissipative electric current in the presence of a magnetic field. These phenomena have led to an extended formulation of relativistic hydrodynamics, called chiral magnetohydrodynamics. Hitherto unexpected applications in condensed matter physics include graphene and topological insulators. Other fields of application include astrophysics, where strong magnetic fields exist in magnetars and pulsars. Last but not least, an important new theoretical tool that will be revisited and which made much of the progress surveyed in this book possible is the holographic principle - the correspondence between quantum field theory and gravity in extra dimensions. Edited and authored by the pioneers and leading experts in this newly emerging field, this book offers a valuable resource for a broad community of physicists and graduate students.

**Edition Notes**

Statement | edited by Dmitri Kharzeev, Karl Landsteiner, Andreas Schmitt, Ho-Ung Yee |

Series | Lecture Notes in Physics -- 871 |

Contributions | Landsteiner, Karl, Schmitt, Andreas, Yee, Ho-Ung, SpringerLink (Online service) |

Classifications | |
---|---|

LC Classifications | QC770-798, QC702.7.H42, QC793.5.H32-793.5.H329 |

The Physical Object | |

Format | [electronic resource] / |

Pagination | XIV, 624 p. 117 illus. |

Number of Pages | 624 |

ID Numbers | |

Open Library | OL27089748M |

ISBN 10 | 9783642373053 |

From gravitational redshift/blueshift and the law of conservation of energy, we obtained equations, Δ g = fG / μ 0 B and Δ g = f G ε 0 E, for the interaction between gravitational and magnetic/electric variation of gravitational acceleration Δ g is determined with the gravitational redshift parameter ƒ and the magnetic flux density B or the electric field intensity E; G, μ 0. Phase Structure of Strongly Interacting Matter beyond Mean Field Pengfei Zhuang Physics Department, Tsinghua University, Beijing Pengfei Zhuang (Tsinghua University) 1 Quarks and Compact Stars , Kyoto, We discuss chiral symmetry, isospin symmetry and! "(1) symmetry beyond mean field approximation in effective models at finite T and.

But no, quantum fields do not interact with matter. Quantum fields are matter. In a quantum field theory, what we perceive as particles are excitations of the quantum field itself. An electric field in which the strength is evenly distributed throughout, as between plates of opposite charge, is a(n) ____. paramagnetic A material that has only one unpaired electron per atom and is weakly attracted to magnets is _______.

Dublin January 2 Further Reading: • David Jiles Introduction to Magnetism and Magnetic Materials, Chapman and Hall ; A detailed introduction, written in a question and answer format. • Stephen Blundell Magnetism in Condensed Matter, Oxford A new book providing a . Topology, magnetic field, and strongly interacting matter. By Dmitri E. Kharzeev. Get PDF (2 MB) Abstract. Gauge theories with compact symmetry groups possess topologically non-trivial configurations of gauge field. (QCD) and for the behavior of QCD plasma, as well as for condensed matter systems with chiral quasiparticles. I review the Author: Dmitri E. Kharzeev.

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Introduction The physics of strongly interacting matter in an external magnetic field is presently emerging as a topic of great cross-disciplinary interest for particle, nuclear, astro- and condensed matter physicists.

About this book The physics of strongly interacting matter in an external magnetic field is presently emerging as a topic of great cross-disciplinary interest for particle, nuclear, astro- and condensed matter physicists.

This is an introduction to the volume of Lecture Notes in Physics on “Strongly interacting matter in magnetic fields”. The volume combines contributions written by a number of experts on different aspects of the problem.

The response of QCD matter to intense magnetic fields has attracted a Cited by: Strongly Interacting Matter in Magnetic Field Conference Paper January with 26 Reads How we measure 'reads' A 'read' is counted each time someone views a publication summary (such as.

DOE PAGES Journal Article: Topology, Magnetic Field, and Strongly Interacting Matter. Topology, Magnetic Field, and Strongly Interacting Matter.

Full Record; Cited by (4) Other Related Research; Abstract. Gauge theories with compact symmetry groups possess topologically nontrivial configurations of gauge field. This characteristic has dramatic. The strong magnetic field produced in relativistic heavy ion collision experiments along with the presence of deconfined non abelian QCD matter bring some exciting possibilities specifically.

"Strongly interacting matter in magnetic fields": an overview Dmitri E. Kharzeev, Karl Landsteiner, Andreas Schmitt, Ho-Ung Yee This is an introduction to the volume of Lecture Notes in Physics on "Strongly interacting matter in magnetic fields".

The volume combines contributions written by a number of experts on different aspects of the by: Home > Books > Book Series > JPS Conference Proceedings > Proceedings of the Workshop on Quarks and Compact Stars (QCS) > Strongly Interacting Matter in Magnetic Field JPS Conf.

Proc. 20, () [8 pages]. Introduction The understanding of the behavior of strongly interacting matter at finite T and/or density is of fundamental interest and has important applications in cosmology, in the astrophysics of neutron stars and in the physics of RHIC.

High magnetic fields in non-central relativistic heavy ion collisions (Kharzev, McLerran, Warringa (08)). This book considers the above phenomena in detail by explaining matter as a conglomeration of charged mass points in the electromagnetic field.

Quantum mechanics and Maxwell's theory can then account for the precise description of the interactions between the electromagnetic fields and matter. Strongly interacting matter in an external magnetic field Pavel Buividovich (Regensburg University) DPG Jahrestagung, Dresden, MarchGeneration of magnetic fields in heavy-ion collisions Relative motion •Highest pulse magnetic field (High Magnetic Field.

Topology, Magnetic Field, and Strongly Interacting Matter. Annual Review of Nuclear and Particle Science Vol. (Volume publication date (QCD) and for the behavior of QCD plasma, as well as for condensed matter systems with chiral quasi-particles.

I review the current status of this problem with an emphasis both on the interplay Cited by: Title: Topology, magnetic field, and strongly interacting matter. Authors: Dmitri Eas well as for condensed matter systems with chiral quasiparticles.

I review the current status of the problem with an emphasis on the interplay of chirality with a background magnetic field, and on the observable manifestations of topology in heavy ion Cited by: 9. Strongly interacting matter in an external magnetic field. PavelBuividovich (Regensburg University) DPG Jahrestagung, Dresden, March Gauge theories with compact symmetry groups possess topologically nontrivial configurations of gauge field.

This characteristic has dramatic implications for the vacuum structure of quantum chromodynamics (QCD) and for the behavior of QCD plasma, as well as for condensed matter systems with chiral quasi-particles.

I review the current status of this problem with an emphasis both Cited by: Equation of State of the Strong Interaction Matter in an External Magnetic Field * Zhang Rui (张锐) 1 and Liu Yu-Xin (刘玉鑫) 1,2,3 © Chinese Physical Society and IOP Publishing Ltd Communications in Theoretical Physics, Vol Number 4.

Subsequent topics include the effects of external electric and magnetic fields on the atomic spectra and the properties of systems composed of many interacting identical particles.

The book also provides a detailed explanation of the second quantization of the non-relativistic matter field, i.e., the Schrödinger field, which offers a powerful.

Interactions between Electromagnetic Fields and Matter deals with the principles and methods that can amplify electromagnetic fields from very low levels of signals. This book discusses how electromagnetic fields can be produced, amplified, modulated, or rectified from very low levels to enable these for application in communication systems.

We investigate the equation of state of the strong interaction matter in a background magnetic field via the two flavor Nambu–Jona-Lasinio model. Starting from the mean-field th. At the range of 10 −15 m (1 femtometer), the strong force is approximately times as strong as electromagnetism, a million times as strong as the weak interaction, and 10.

Topology, Magnetic Field, and Strongly Interacting Matter Topology, Magnetic Field, and Strongly Interacting Matter Kharzeev, Dmitri E. Gauge theories with compact symmetry groups possess topologically nontrivial configurations of gauge field.

This characteristic has dramatic implications for the vacuum structure of quantum chromodynamics (QCD) and for the. The quantum nonlinearity is obtained by coherently coupling slowly propagating photons3,4,5 to strongly interacting atomic Rydberg states6,7,8,9,10,11,12 in a.

The interaction and therefore the pairing strength between two 6 Li fermions near a Feshbach resonance can be controlled by an external magnetic field.

This allows us to explore the crossover from.