FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012894966> ?p ?o ?g. }

• W2012894966 abstract "We consider collective emission of a single photon from a cloud of $N$ two-level atoms (one excited, $Nensuremath{-}1$ ground state). For a dense cloud the problem is reduced to finding eigenfunctions and eigenvalues of an integral equation. We discuss an exact analytical solution of this many-atom problem for a spherically symmetric atomic cloud. Some eigenstates decay much faster then the single atom decay rate, while the others undergo very slow decay. We show that virtual processes yield a small effect on the evolution of rapidly decaying states. However, they change the long time dynamics from exponential decay into a power-law behavior which can be observed experimentally. For trapped states virtual processes are much more important yielding additional decay channels which results in a slow decay of the otherwise trapped states. We also show that quantum mechanical treatment of spontaneous emission of weakly excited atomic ensemble is analogous to emission of $N$ classical harmonic oscillators." @default.
• W2012894966 created "2016-06-24" @default.
• W2012894966 creator A5022041722 @default.
• W2012894966 creator A5066889197 @default.
• W2012894966 creator A5077654483 @default.
• W2012894966 date "2010-05-13" @default.
• W2012894966 modified "2023-10-14" @default.
• W2012894966 title "Cooperative spontaneous emission of<mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML display=inline><mml:mrow><mml:mi>N</mml:mi></mml:mrow></mml:math>atoms: Many-body eigenstates, the effect of virtual Lamb shift processes, and analogy with radiation of<mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML display=inline><mml:mrow><mml:mi>N</mml:mi></mml:mrow></mml:math>classical oscillators" @default.
• W2012894966 cites W1967707527 @default.
• W2012894966 cites W1972989121 @default.
• W2012894966 cites W1973033633 @default.
• W2012894966 cites W1973127970 @default.
• W2012894966 cites W1975302837 @default.
• W2012894966 cites W1977733098 @default.
• W2012894966 cites W1985815000 @default.
• W2012894966 cites W1992229145 @default.
• W2012894966 cites W1992623929 @default.
• W2012894966 cites W1993230109 @default.
• W2012894966 cites W1995907433 @default.
• W2012894966 cites W1998455945 @default.
• W2012894966 cites W1999669086 @default.
• W2012894966 cites W1999748594 @default.
• W2012894966 cites W2000635089 @default.
• W2012894966 cites W2001502963 @default.
• W2012894966 cites W2001897716 @default.
• W2012894966 cites W2002801428 @default.
• W2012894966 cites W2003272164 @default.
• W2012894966 cites W2008736863 @default.
• W2012894966 cites W2013531419 @default.
• W2012894966 cites W2017154611 @default.
• W2012894966 cites W2018320959 @default.
• W2012894966 cites W2023575339 @default.
• W2012894966 cites W2023834839 @default.
• W2012894966 cites W2025978263 @default.
• W2012894966 cites W2026066749 @default.
• W2012894966 cites W2027236412 @default.
• W2012894966 cites W2032515735 @default.
• W2012894966 cites W2035852829 @default.
• W2012894966 cites W2035924763 @default.
• W2012894966 cites W2037195913 @default.
• W2012894966 cites W2043045153 @default.
• W2012894966 cites W2045358920 @default.
• W2012894966 cites W2047679279 @default.
• W2012894966 cites W2048506346 @default.
• W2012894966 cites W2048595557 @default.
• W2012894966 cites W2048793984 @default.
• W2012894966 cites W2054499570 @default.
• W2012894966 cites W2056469674 @default.
• W2012894966 cites W2057843313 @default.
• W2012894966 cites W2059661732 @default.
• W2012894966 cites W2059918424 @default.
• W2012894966 cites W2064425239 @default.
• W2012894966 cites W2065733136 @default.
• W2012894966 cites W2066872140 @default.
• W2012894966 cites W2075190846 @default.
• W2012894966 cites W2076122320 @default.
• W2012894966 cites W2076555888 @default.
• W2012894966 cites W2079203992 @default.
• W2012894966 cites W2080565760 @default.
• W2012894966 cites W2083891544 @default.
• W2012894966 cites W2086258556 @default.
• W2012894966 cites W2088148954 @default.
• W2012894966 cites W2090765638 @default.
• W2012894966 cites W2113457095 @default.
• W2012894966 cites W2137795265 @default.
• W2012894966 cites W2167079073 @default.
• W2012894966 cites W3036028305 @default.
• W2012894966 cites W38468123 @default.
• W2012894966 cites W4236522448 @default.
• W2012894966 cites W4241123335 @default.
• W2012894966 doi "https://doi.org/10.1103/physreva.81.053821" @default.
• W2012894966 hasPublicationYear "2010" @default.
• W2012894966 type Work @default.
• W2012894966 sameAs 2012894966 @default.
• W2012894966 citedByCount "203" @default.
• W2012894966 countsByYear W20128949662012 @default.
• W2012894966 countsByYear W20128949662013 @default.
• W2012894966 countsByYear W20128949662014 @default.
• W2012894966 countsByYear W20128949662015 @default.
• W2012894966 countsByYear W20128949662016 @default.
• W2012894966 countsByYear W20128949662017 @default.
• W2012894966 countsByYear W20128949662018 @default.
• W2012894966 countsByYear W20128949662019 @default.
• W2012894966 countsByYear W20128949662020 @default.
• W2012894966 countsByYear W20128949662021 @default.
• W2012894966 countsByYear W20128949662022 @default.
• W2012894966 countsByYear W20128949662023 @default.
• W2012894966 crossrefType "journal-article" @default.
• W2012894966 hasAuthorship W2012894966A5022041722 @default.
• W2012894966 hasAuthorship W2012894966A5066889197 @default.
• W2012894966 hasAuthorship W2012894966A5077654483 @default.
• W2012894966 hasConcept C121332964 @default.
• W2012894966 hasConcept C149635348 @default.
• W2012894966 hasConcept C158693339 @default.
• W2012894966 hasConcept C181500209 @default.
• W2012894966 hasConcept C184779094 @default.
• W2012894966 hasConcept C40934718 @default.
• W2012894966 hasConcept C41008148 @default.
• W2012894966 hasConcept C58312451 @default.
• W2012894966 hasConcept C62520636 @default.

• next