Hadrons at Finite Temperature

Samirnath Mallik; Sourav Sarkar

doi:10.1017/9781316535585

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Hadrons at Finite Temperature

Hadrons at Finite Temperature

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This Book has been cited by the following publications. This list is generated based on data provided by Crossref.

Mukherjee, Arghya Ghosh, Snigdha Mandal, Mahatsab Roy, Pradip and Sarkar, Sourav 2017. Mass modification of hot pions in a magnetized dense medium. Physical Review D, Vol. 96, Issue. 1,

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Bandyopadhyay, Aritra and Mallik, S. 2017. Effect of magnetic field on dilepton production in a hot plasma. Physical Review D, Vol. 95, Issue. 7,

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Ghosh, Snigdha Mukherjee, Arghya Mandal, Mahatsab Sarkar, Sourav and Roy, Pradip 2017. Thermal effects on ρ meson properties in an external magnetic field. Physical Review D, Vol. 96, Issue. 11,

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Mukherjee, Arghya Ghosh, Snigdha Mandal, Mahatsab Sarkar, Sourav and Roy, Pradip 2018. Effect of external magnetic fields on nucleon mass in a hot and dense medium: Inverse magnetic catalysis in the Walecka model. Physical Review D, Vol. 98, Issue. 5,

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Das, Aritra Ghosh, Ritesh and Mallik, S. 2019. Saha Ionization Equation in the Early Universe. The Astrophysical Journal, Vol. 881, Issue. 1, p. 40.

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Ghosh, Snigdha Chaudhuri, Nilanjan Sarkar, Sourav and Roy, Pradip 2020. Effects of the anomalous magnetic moment of quarks on the dilepton production from hot and dense magnetized quark matter using the NJL model. Physical Review D, Vol. 101, Issue. 9,

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Kalikotay, Pallavi Ghosh, Snigdha Chaudhuri, Nilanjan Roy, Pradip and Sarkar, Sourav 2020. Medium effects on the electrical and Hall conductivities of a hot and magnetized pion gas. Physical Review D, Vol. 102, Issue. 7,

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Kalikotay, Pallavi Chaudhuri, Nilanjan Ghosh, Snigdha Gangopadhyaya, Utsab and Sarkar, Sourav 2020. Viscous coefficients and thermal conductivity of a $$\pi K N$$ gas mixture in the medium. The European Physical Journal A, Vol. 56, Issue. 3,

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Samirnath Mallik, Saha Institute of Nuclear Physics, India, Sourav Sarkar, Variable Energy Cyclotron Centre, Kolkata

Publisher:: Cambridge University Press
Online publication date:: October 2016
Print publication year:: 2016
Online ISBN:: 9781316535585
DOI:: https://doi.org/10.1017/9781316535585

Subjects:: Particle Physics and Nuclear Physics, Physics and Astronomy, Theoretical Physics and Mathematical Physics
Series:: Cambridge Monographs on Mathematical Physics

111.00 (GBP)

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High energy laboratories are performing experiments in heavy ion collisions to explore the structure of matter at high temperature and density. This elementary book explains the basic ideas involved in the theoretical analysis of these experimental data. It first develops two topics needed for this purpose, namely hadron interactions and thermal field theory. Chiral perturbation theory is developed to describe hadron interactions and thermal field theory is formulated in the real-time method. In particular, spectral form of thermal propagators is derived for fields of arbitrary spin and used to calculate loop integrals. These developments are then applied to find quark condensate and hadron parameters in medium, including dilepton production. Finally, the non-equilibrium method of statistical field theory to calculate transport coefficients is reviewed. With technical details explained in the text and appendices, this book should be accessible to researchers as well as graduate students interested in thermal field theory.

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Hadrons at Finite Temperature

This Book has been cited by the following publications. This list is generated based on data provided by Crossref.

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Contents

Frontmatter
pp i-vi

Dedication
pp vii-viii

Contents
pp ix-xii

Preface
pp xiii-xiv

Notation
pp xv-xvi

1 - Free Fields in Vacuum
pp 1-20

2 - Spontaneous Symmetry Breaking
pp 21-48

3 - Chiral Perturbation Theory
pp 49-93

4 - Thermal Propagators
pp 94-117

5 - Thermal Perturbation Theory
pp 118-136

6 - Thermal Parameters
pp 137-153

7 - Two-Loop Results
pp 154-172

8 - Heavy Ion Collisions
pp 173-188

9 - Non-Equilibrium Processes
pp 189-211

Appendix A - General Fields
pp 212-214

Appendix B - Global Symmetries
pp 215-219

Appendix C - Exponential Operator
pp 220-222

Appendix D - Propagator at Origin of Coordinates
pp 223-226

Appendix E - Reaction Rates in Vacuum and Medium
pp 227-232

Appendix F - Coupling Constants
pp 233-237

Appendix G - Imaginary Time Method
pp 238-240

Appendix H - Quark Condensate from Partition Function
pp 241-243

Appendix I - Quark Condensate from Density Expansion
pp 244-245

Index
pp 246-250

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Hadrons at Finite Temperature

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Contents

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