A Primer on Quantum Fluids
by Carlo F. Barenghi, Nick G. Parker
Publisher: Springer 2016
Number of pages: 132
This book introduces the theoretical description and properties of quantum fluids. The focus is on gaseous atomic Bose-Einstein condensates and, to a minor extent, superfluid helium, but the underlying concepts are relevant to other forms of quantum fluids such as polariton and photonic condensates. The book is pitched at the level of advanced undergraduates and early postgraduate students.
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by Adriaan M.J. Schakel - arXiv
This textbook covers the main topics in contemporary condensed matter physics. The unique and innovative character of this presentation, free of historical constraints, allows for a compact and self-contained treatment of the main topics.
by Thomas Vojta - arXiv
These lecture notes give a pedagogical introduction to phase transitions in disordered quantum systems and to the exotic Griffiths phases induced in their vicinity. The author also presents a number of experimental examples.
by Immanuel Bloch, Jean Dalibard, Wilhelm Zwerger - arXiv.org
This paper reviews recent experimental and theoretical progress concerning many-body phenomena in dilute, ultracold gases. It focuses on effects beyond standard weak-coupling descriptions, such as the Mott-Hubbard transition in optical lattices, etc.
by Krishna Rajagopal, Frank Wilczek - arXiv
Important progress in understanding the behavior of hadronic matter at high density has been achieved recently. We discuss the phase diagram of QCD as a function of temperature and density, and close with a look at possible astrophysical signatures.