Theory of Quantum Bose Liquids Beyond Bogoliubov Approximation / by Abdulla Rakhimov, Shukhrat Mardonov.

Format:

Book

Author/Creator:

Rakhimov, Abdulla.

Contributor:

Mardonov, Shukhrat.

Series:

Lecture Notes in Physics, 1616-6361 ; 1045

Language:

English

Subjects (All):

Bose-Einstein condensation.

Quantum statistics.

Quantum theory.

Quantum electrodynamics.

Condensed matter.

Bose-Einstein Condensate.

Quantum Gases and Condensates.

Quantum Fluids and Solids.

Quantum Physics.

Quantum Electrodynamics, Relativistic and Many-body Calculations.

Condensed Matter Physics.

Local Subjects:

Bose-Einstein Condensate.

Quantum Gases and Condensates.

Quantum Fluids and Solids.

Quantum Physics.

Quantum Electrodynamics, Relativistic and Many-body Calculations.

Condensed Matter Physics.

Physical Description:

1 online resource (491 pages)

Edition:

1st ed. 2026.

Place of Publication:

Cham : Springer Nature Switzerland : Imprint: Springer, 2026.

Summary:

This book presents a comprehensive account of Bose-Einstein Condensation (BEC), a fundamental phenomenon in quantum physics that reveals the collective behavior of bosonic systems at ultracold temperatures. Bridging theoretical models with experimental developments and applied perspectives, the book is structured to guide readers from foundational principles to advanced topics in the physics of quantum fluids. It is intended for researchers and graduate students in theoretical physics, particularly in condensed matter and ultracold atomic systems. Topics include the distinction between quantum gases and liquids, the role of the chemical potential in ultracold systems, and the historical and theoretical development of interacting Bose gases since the early work of Bogoliubov. The limitations of Bogoliubov theory—particularly its applicability to weakly interacting systems and neglect of finite-temperature effects—are discussed, along with recent advances such as the Lee-Huang-Yang (LHY) correction and the emergence of quantum droplets in two-component Bose mixtures. The book introduces field-theoretical methods for many-body systems, covering spontaneous symmetry breaking, Green functions, Matsubara formalism, and path integrals. A central focus is the application of Optimized Perturbation Theory (OPT), also known as the variational Gaussian approximation or linear delta expansion, to atomic BECs and quantum magnets (triplons). Theoretical developments are complemented by a brief overview of experimental methods.

Contents:

Preface

Introduction

Quantum fluids

A system of noninteracting particles ideal gas

Bec of interacting particles

Experiments in a nutshell

Path integrals for bosons

Optimized perturbation theory

Bec in optimal perturbation theory

Tans contact in mean field theories

The condensate phase and its relation to the anomalous density

Two component bose mixture

Quantum liquid droplets in two component bose mixtures

Bose einstein condensation of triplons in quantum magnets

Thermodynamics of dimerized quantum magnets

Magnetocaloric effect and grueneisen parameter of quantum magnets with spin gap

Weak anisotropy in spin gapped quantum magnets

Optimized perturbation theory in δ2 order

Appendices.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

3-032-05096-0

9783032050960

OCLC:

1569198765