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• W2016037066 abstract "Mean-field dynamics of strongly interacting bosons described by hard-core bosons with nearest-neighbor attraction has been shown to support two species of solitons: one of Gross-Pitaevskii type (GP type) where the condensate fraction remains dark, and a non-Gross-Pitaevskii type (non-GP type) characterized by brightening of the condensate fraction. Here we study the effects of quantum fluctuations on these solitons using the adaptive time-dependent density matrix renormalization group method, which takes into account the effect of strong correlations. We use local observables as the density, condensate density, and correlation functions as well as the entanglement entropy to characterize the stability of the initial states. We find both species of solitons to be stable under quantum evolution for a finite duration, their tolerance to quantum fluctuations being enhanced as the width of the soliton increases. We describe possible experimental realizations in atomic Bose-Einstein condensates, polarized degenerate Fermi gases, and in systems of polar molecules on optical lattices." @default.
• W2016037066 created "2016-06-24" @default.
• W2016037066 creator A5014363562 @default.
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• W2016037066 date "2012-05-15" @default.
• W2016037066 modified "2023-09-26" @default.
• W2016037066 title "Quantum dynamics of solitons in strongly interacting systems on optical lattices" @default.
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• W2016037066 cites W1963646058 @default.
• W2016037066 cites W1970917957 @default.
• W2016037066 cites W1971911349 @default.
• W2016037066 cites W1974862420 @default.
• W2016037066 cites W1976525998 @default.
• W2016037066 cites W1979308046 @default.
• W2016037066 cites W1982526508 @default.
• W2016037066 cites W1985270503 @default.
• W2016037066 cites W1986958889 @default.
• W2016037066 cites W1987194336 @default.
• W2016037066 cites W1988789365 @default.
• W2016037066 cites W1990345839 @default.
• W2016037066 cites W1990516747 @default.
• W2016037066 cites W1992643613 @default.
• W2016037066 cites W1997300626 @default.
• W2016037066 cites W1999404512 @default.
• W2016037066 cites W2001142566 @default.
• W2016037066 cites W2006332155 @default.
• W2016037066 cites W2008569075 @default.
• W2016037066 cites W2009619592 @default.
• W2016037066 cites W2009624935 @default.
• W2016037066 cites W2013421581 @default.
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• W2016037066 cites W2021712328 @default.
• W2016037066 cites W2022110483 @default.
• W2016037066 cites W2023973950 @default.
• W2016037066 cites W2026431827 @default.
• W2016037066 cites W2027721249 @default.
• W2016037066 cites W2032682841 @default.
• W2016037066 cites W2034012235 @default.
• W2016037066 cites W2037768897 @default.
• W2016037066 cites W2039585585 @default.
• W2016037066 cites W2052296970 @default.
• W2016037066 cites W2052347362 @default.
• W2016037066 cites W2052994056 @default.
• W2016037066 cites W2054096257 @default.
• W2016037066 cites W2058589782 @default.
• W2016037066 cites W2059256122 @default.
• W2016037066 cites W2063306866 @default.
• W2016037066 cites W2068643012 @default.
• W2016037066 cites W2070219260 @default.
• W2016037066 cites W2070324034 @default.
• W2016037066 cites W2074896825 @default.
• W2016037066 cites W2078791968 @default.
• W2016037066 cites W2080777366 @default.
• W2016037066 cites W2083314712 @default.
• W2016037066 cites W2096944169 @default.
• W2016037066 cites W2098571231 @default.
• W2016037066 cites W2123148422 @default.
• W2016037066 cites W2127700708 @default.
• W2016037066 cites W2132384345 @default.
• W2016037066 cites W2134786991 @default.
• W2016037066 cites W2145264479 @default.
• W2016037066 cites W2145368183 @default.
• W2016037066 cites W2149828519 @default.
• W2016037066 cites W2153037802 @default.
• W2016037066 cites W2154815292 @default.
• W2016037066 cites W2155413452 @default.
• W2016037066 cites W2158769953 @default.
• W2016037066 cites W2171823766 @default.
• W2016037066 cites W2262689367 @default.
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• W2016037066 cites W2963388978 @default.
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• W2016037066 cites W3098586276 @default.
• W2016037066 cites W3098827488 @default.
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• W2016037066 doi "https://doi.org/10.1103/physreva.85.053617" @default.
• W2016037066 hasPublicationYear "2012" @default.
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