Physics of Impurities in Quantum Gases

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Autore:	Mistakidis Simeon
Titolo:	Physics of Impurities in Quantum Gases
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica:	1 electronic resource (234 p.)
Soggetto topico:	Research & information: general
	Physics
Soggetto non controllato:	Bose–Einstein condensate
	Laguerre–Gaussian
	Raman transition
	cold atoms
	light–matter interaction
	particle transfer
	density pattern
	polaron
	impurity
	spectroscopy of quasiparticles
	interpolaron correlations
	quantum depletion
	ultracold atoms
	Fermi degenerate gases
	Bose–Einstein condensates
	impurity dynamics
	ramsey interferometry
	polarons
	polariton
	Fermi polaron
	Landau theory
	quasiparticle interactions
	mixtures
	identical-boson pairs
	distinguishable-boson pairs
	natural geminals
	natural orbitals
	reduced density matrices
	intra-species reduced density matrices
	inter-species reduced density matrices
	fragmentation
	condensation
	infinite-particle-number limit
	harmonic-interaction models
	pair fragmentation
	Schmidt decomposition
	center-of-mass
	relative center-of-mass
	anyons
	quasiparticles
	Quantum Hall Effect
	topological states of matter
	few-body collisions
	Efimov effect
	mass-imbalanced systems
	recombination
	cold gases in optical lattices
	quantum phase transitions
	disordered systems
	Bose polaron
	pattern formation
	temporal orthogonality catastrophe
	Lee-Low-Pines transformation
	mobile and immobile impurities
	Bose polaron and bipolaron
	effective field theory approach
	induced interaction
	polaron–polaron interaction
	gas of impurities
	quantum–Monte Carlo
	Fermi polarons
	Bose polarons
	repulsive interactions
	metastable quasiparticles
	quasiparticle lifetime
	mediated interactions
	repulsive Fermi gas
	ultracold atomic mixtures
Persona (resp. second.):	VolosnievArtem
	MistakidisSimeon
Sommario/riassunto:	The Special Issue contains theoretical and experimental works that report on studies of impurities in quantum gases, fundamental properties and universal aspects of quasiparticles and other related many-body phenomena. Particular focus is placed on the Fermi and Bose polarons. The Special Issue contains ten research articles and two reviews. M. G. Skou et al. report on the experimental observation of time dynamics of Bose polarons. Theoretical studies by H. Tajima et al., L. A. Ardila, and G. Panochko and V. Pastukhov touch upon the physics of multiple impurities, in particular, the induced impurity–impurity interactions in different spatial dimensions and the formation of multi-polaron states. G. M. Koutentakis et al. elaborate on the phenomenon of temporal orthogonality catastrophe in low dimensions. Polaritons in an electron gas are discussed by M. A. Bastarrachea-Magnani et al. M. Brooks et al. describe the emergence of anyons originating from angulons. F. Scazza et al. provide an overview of our current understanding of repulsive Bose and Fermi polarons. C. D’Errico and M. G. Tarallo explicate the effects of disorder in bosonic systems. The Special Issue also includes studies of correlated atom pairs in bosonic mixtures by O. Alon, the behavior of the three-body decay rate coefficients into shallow dimers in mass-imbalanced three-atom systems by P. Giannakeas and C. H. Greene, population and angular momentum transfer in Raman-coupled Bose–Einstein condensates by K. Mukherjee et al.
Titolo autorizzato:	Physics of Impurities in Quantum Gases
ISBN:	3-0365-4874-2
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910619468403321
Lo trovi qui:	Univ. Federico II
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