Atomic and molecular physics

A self-contained text systematically covering the key concepts, theoretical background and major experimental results of graphene photonics.

A self-contained text systematically covering the key concepts, theoretical background and major experimental results of graphene photonics.

Presents a powerful new framework for out-of-equilibrium hydrodynamics, with connections to kinetic theory, AdS/CFT and applications to high-energy particle collisions.

Explains what spin is and how spins are polarized to study elementary particles, nuclei, atoms and molecular structures.

The new edition of this popular textbook provides a fundamental approach to phase transformations and thermodynamics of materials.

The new edition of this popular textbook provides a fundamental approach to phase transformations and thermodynamics of materials.

Presenting fundamental concepts of quantum mechanics in a comprehensive manner with the help of solved problems.

Explains what spin is and how spins are polarized to study elementary particles, nuclei, atoms and molecular structures.

A modern introduction to ultracold atomic physics combining fundamental theory with discussion of cold atom phenomena and applications.

A modern introduction to ultracold atomic physics combining fundamental theory with discussion of cold atom phenomena and applications.

Presents a powerful new framework for out-of-equilibrium hydrodynamics, with connections to kinetic theory, AdS/CFT and applications to high-energy particle collisions.

Covers quantum scattering theories, experimental and theoretical calculations and applications in a comprehensive manner.

The physics of emission, absorption and interaction of light in astrophysics and in laboratory plasmas is developed from first principles.

The physics of emission, absorption and interaction of light in astrophysics and in laboratory plasmas is developed from first principles.

Discusses fundamentals concepts of physics and their applications to a number of engineering problems.

Discusses the fundamental concepts of engineering physics and material science and their applications to a number of engineering problems.

A unique and in-depth discussion uncovering the unifying features of collision phenomena in liquids and solids, along with applications.

A unique and in-depth discussion uncovering the unifying features of collision phenomena in liquids and solids, along with applications.

An introductory textbook on attosecond and strong field physics, covering fundamental theory and modeling techniques, as well as future opportunities and challenges.

This accessible reference presents the evolution of concepts of time and methods of time keeping, for historians, scientists, engineers, and educators.

An introductory textbook on attosecond and strong field physics, covering fundamental theory and modeling techniques, as well as future opportunities and challenges.

This accessible reference presents the evolution of concepts of time and methods of time keeping, for historians, scientists, engineers, and educators.

Covering general theoretical concepts and the research to date, this book demonstrates that Bose–Einstein condensation is a truly universal phenomenon.

Covering general theoretical concepts and the research to date, this book demonstrates that Bose–Einstein condensation is a truly universal phenomenon.

An applications-oriented approach gives graduate students and researchers in the physical sciences the tools needed to analyze any physical system.

An applications-oriented approach gives graduate students and researchers in the physical sciences the tools needed to analyze any physical system.

This is the first book for astronomers who wish to use molecular emissions as a tool to explore the Universe.

This is the first book for astronomers who wish to use molecular emissions as a tool to explore the Universe.

This classic provides a delightful explanation of the central concepts in physics, from atomic structure to relativity.

Comprehensive coverage of the principles, technology and diverse applications of optical magnetometry for graduate students and researchers in atomic physics.

This classic provides a delightful explanation of the central concepts in physics, from atomic structure to relativity.

Comprehensive coverage of the principles, technology and diverse applications of optical magnetometry for graduate students and researchers in atomic physics.

First-hand ''popular physics'' book by very famous theoretical physicist.

First-hand ''popular physics'' book by very famous theoretical physicist.

A comprehensive account of molecular quantum electrodynamics from the perspectives of physics and theoretical chemistry.

The birth of the Universe, and its subsequent evolution, is an exciting blend of Cosmology, Particle Physics and Thermodynamics.

The birth of the Universe, and its subsequent evolution, is an exciting blend of Cosmology, Particle Physics and Thermodynamics.

This is a problem-oriented introduction to the main ideas, methods, and problems needed to form a basic understanding of the theory of strong interactions.

This is a problem-oriented introduction to the main ideas, methods, and problems needed to form a basic understanding of the theory of strong interactions.

The book covers basic approaches to the nuclear fuel state of energy reactors in the last stages of the nuclear fuel cycle, these have been developed by the authors based on Ukrainian Nuclear Power Plant (NPP) operational experience.

The book covers basic approaches to the nuclear fuel state of energy reactors in the last stages of the nuclear fuel cycle, these have been developed by the authors based on Ukrainian Nuclear Power Plant (NPP) operational experience.

This book introduces the vast subject of supersymmetry along with many specific examples of engineering applications, for example: The design of quantum unitary gates using supersymmetric actions Bosonic and Fermionic noise in quantum systems using the Hudson-Parthasarathy quantum stochastic calculus Superstring theory applied to the quantum mechanics of neurons and supersymmetric quantum filtering theory which can, for example, be used to filter out the noise in a cavity resonator electromagnetic field produced by the presence electrons and positrons in a bath surrounding it Simplified versions of super-Yang-Mills theory with gauge and gaugino fields, both transforming under the adjoint representation of the gauge group and elementary super-gravity models have also been introduced All through the book, emphasis is laid upon exploiting the supersymmetry existing in the nature of Boson-Fermion exchange in designing engineering systems like quantum computers and analyzing the performance of systems in the presence of supersymmetric quantum noise.

This book introduces the vast subject of supersymmetry along with many specific examples of engineering applications, for example: The design of quantum unitary gates using supersymmetric actions Bosonic and Fermionic noise in quantum systems using the Hudson-Parthasarathy quantum stochastic calculus Superstring theory applied to the quantum mechanics of neurons and supersymmetric quantum filtering theory which can, for example, be used to filter out the noise in a cavity resonator electromagnetic field produced by the presence electrons and positrons in a bath surrounding it Simplified versions of super-Yang-Mills theory with gauge and gaugino fields, both transforming under the adjoint representation of the gauge group and elementary super-gravity models have also been introduced All through the book, emphasis is laid upon exploiting the supersymmetry existing in the nature of Boson-Fermion exchange in designing engineering systems like quantum computers and analyzing the performance of systems in the presence of supersymmetric quantum noise.

This fully updated second edition of The Physics of Phonons remains the most comprehensive theoretical discussion devoted to the study of phonons, a major area of condensed matter physics.

From Nuclear Transmutation to Nuclear Fission, 1932-1939 deals with a particular phase in the early history of nuclear physics: the race among four laboratory teams to be the first to achieve the transmutation of atomic nuclei with artificially accelerated nuclear projectiles (protons) in high-voltage discharge tubes.

This fully updated second edition of The Physics of Phonons remains the most comprehensive theoretical discussion devoted to the study of phonons, a major area of condensed matter physics.

In recent decades, time-dependent density functional theory has been developed for computing excited-state properties of large-scale systems to high accuracy in biomolecules and nanomaterials, especially for ab initio nonadiabatic molecular dynamic simulations.

In recent decades, time-dependent density functional theory has been developed for computing excited-state properties of large-scale systems to high accuracy in biomolecules and nanomaterials, especially for ab initio nonadiabatic molecular dynamic simulations.