By Nick Proukakis,Simon Gardiner,Matthew Davis,Marzena Szymańska
The 1995 statement of Bose–Einstein condensation in dilute atomic vapours spawned the sphere of ultracold, degenerate quantum gases. unheard of advancements in experimental layout and precision keep watch over have resulted in quantum gases turning into the popular playground for dressmaker quantum many-body systems.
This self-contained quantity offers a wide evaluate of the critical theoretical innovations utilized to non-equilibrium and finite temperature quantum gases. masking Bose–Einstein condensates, degenerate Fermi gases, and the extra lately realised exciton–polariton condensates, it fills a niche by way of linking among diverse equipment with origins in condensed subject physics, quantum box idea, quantum optics, atomic physics, and statistical mechanics. Thematically organised chapters on diverse methodologies, contributed via key researchers utilizing a unified notation, give you the first built-in view of the relative benefits of person methods, aided through pertinent introductory chapters and the advice of editorial notes.
Both graduate scholars and validated researchers wishing to appreciate the state-of-the-art will vastly make the most of this entire and up to date overview of non-equilibrium and finite temperature options within the intriguing and increasing box of quantum gases and liquids.
- Introductory Material:
- Quantum Gases: The Background
- Quantum Gases: Experimental Considerations
- Quantum Gases: history Key Theoretical Notions
- Ultracold Bosonic Gases: Theoretical Modelling:
- Kinetic and Many-Body Approaches
- Classical-Field, Stochastic and Field-Theoretic Approaches
- Comparison of universal Theories
- Overview of comparable Quantum-Degenerate Systems:
- Nearly Integrable One-Dimensional Systems
- Optical Lattice Geometries
- Liquid Helium
- Degenerate Fermi Gases
- Exciton/Polariton Condensation
Readership: geared toward graduate point scholars and for researchers.
Read Online or Download Quantum Gases:Finite Temperature and Non-Equilibrium Dynamics: 1 (Cold Atoms) PDF
Best molecular physics books
The PUILS sequence grants updated experiences of growth in Ultrafast extreme Laser technology, a newly rising interdisciplinary learn box spanning atomic and molecular physics, molecular technology, and optical technology, which has been motivated through the new advancements in ultrafast laser applied sciences.
Quantum Plasmadynamics is a synthesis of the kinetic concept of plasmas and quantum electrodynamics (QED). during this quantity, the method utilized to unmagnetized plasmas in quantity 1 is generalized to magnetized plasmas. First, a covariant model of nonquantum kinetic idea is formulated for single-particle (emission and scattering) procedures and the collective-medium reaction.
This thesis identifies the turning element in chain size, and then alkanes self-solvate right into a folded constitution rather than a longer stretched conformation. After this turning aspect, London dispersion forces rearrange remoted n-alkanes right into a specific hairpin-structure, while for shorter chain lengths, an easy stretched conformation is energetically most popular.
This corrected and up-to-date moment version of "Scattering conception" provides a concise and sleek insurance of the topic. within the current remedy, distinctive recognition is given to the position performed by way of the long-range behaviour of the projectile-target interplay, and a conception is constructed, that is well matched to explain near-threshold sure and continuum states in reasonable binary platforms equivalent to diatomic molecules or molecular ions.
- Quantum Entanglement in Electron Optics: Generation, Characterization, and Applications: 67 (Springer Series on Atomic, Optical, and Plasma Physics)
- Introduction to the Theory of Collisions of Electrons with Atoms and Molecules (Physics of Atoms and Molecules)
- Ion Implantation Science and Technology
- Biological Magnetic Resonance - Volume 17: Structural Computation and Dynamics in Protein
Extra resources for Quantum Gases:Finite Temperature and Non-Equilibrium Dynamics: 1 (Cold Atoms)
Quantum Gases:Finite Temperature and Non-Equilibrium Dynamics: 1 (Cold Atoms) by Nick Proukakis,Simon Gardiner,Matthew Davis,Marzena Szymańska