Strongly Interacting Matter in Magnetic Fields [electronic resource] / edited by Dmitri Kharzeev, Karl Landsteiner, Andreas Schmitt, Ho-Ung Yee.Material type: TextSeries: Lecture Notes in Physics: 871Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2013Description: XIV, 624 p. 117 illus. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783642373053Subject(s): Physics | Quantum field theory | String theory | Astronomy | Astrophysics | Cosmology | Nuclear physics | Heavy ions | Hadrons | Magnetism | Magnetic materials | Physics | Nuclear Physics, Heavy Ions, Hadrons | Astronomy, Astrophysics and Cosmology | Quantum Field Theories, String Theory | Particle and Nuclear Physics | Magnetism, Magnetic Materials | Física y Astronomía | Física y AstronomíaAdditional physical formats: Printed edition:: No titleDDC classification: 539.7092 LOC classification: QC770-798QC702.7.H42QC793.5.H32-793.5.H329Online resources: Texto completo
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From the Contents: Chiral magnetic spirals -- Magnetized matter in the Sakai-Sugimoto model -- Charge-dependent correlations in heavy ion collisions -- Superconductivity from rho meson condensation in QCD -- Lattice studies of QCD phase transitions in a magnetic field -- Holographic Metamagnetism -- Dense quark matter in a magnetic field -- Effects of a magnetic field in the linear sigma model -- Chiral Magnetic effect II.- Debye screening in magnetic field through holography -- Holographic magnetized fermions -- Chiral magnetic effect in holographic models -- Applications of the AdS/CFT correspondence to magnetized condensed matter systems.
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.