SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012253308> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2012253308 endingPage "144305" @default.
W2012253308 startingPage "144305" @default.
W2012253308 abstract "Atomic nuclei become delocalized at low temperatures as a result of quantum effects, whereas they are point-like in the high temperature (classical) limit. For non-interacting nuclei, the delocalization upon lowering the temperature is quantitatively described in terms of the thermal de Broglie wavelength of free particles. Clearly, light non-interacting nuclei – the proton being a prominent one – are much more delocalized at low temperatures compared to heavy nuclei, such as non-interacting oxygen having water in mind. However, strong interactions due to chemical bonding in conjunction with ultra-low temperatures characteristic to superfluid helium nanodroplets change this common picture substantially for nuclei in molecules or clusters. It turns out that protons shared in hydrogen bonds undergo an extreme “interaction induced localization” at temperatures on the order of 1 K, which compresses the protonic spatial distributions to the size of the much heavier donor or acceptor atoms, such as O or Cl nuclei, corresponding to about 0.1% of the volume occupied by a non-interacting proton at the same temperature. Moreover, applying our recently developed hybrid ab initio path integral molecular dynamics/bosonic path integral Monte Carlo quantum simulation technique to a HCl/water cluster, HCl(H2O)4, we find that helium solvation has a significant additional localizing effect of up to about 30% in volume. In particular, the solvent-induced excess localization is the stronger the lesser the given nucleus is already localized in the gas phase reference situation." @default.
W2012253308 created "2016-06-24" @default.
W2012253308 creator A5044943485 @default.
W2012253308 creator A5072717593 @default.
W2012253308 creator A5084297396 @default.
W2012253308 date "2014-04-14" @default.
W2012253308 modified "2023-09-27" @default.
W2012253308 title "Solvation of molecules in superfluid helium enhances the “interaction induced localization” effect" @default.
W2012253308 cites W110641570 @default.
W2012253308 cites W1615009779 @default.
W2012253308 cites W1666456311 @default.
W2012253308 cites W1964167048 @default.
W2012253308 cites W1964585075 @default.
W2012253308 cites W1968017856 @default.
W2012253308 cites W1969869403 @default.
W2012253308 cites W1970746563 @default.
W2012253308 cites W1971483422 @default.
W2012253308 cites W1975171931 @default.
W2012253308 cites W1976198767 @default.
W2012253308 cites W1976499671 @default.
W2012253308 cites W1977063671 @default.
W2012253308 cites W1982341594 @default.
W2012253308 cites W1982982767 @default.
W2012253308 cites W1984135072 @default.
W2012253308 cites W1985696834 @default.
W2012253308 cites W1991524847 @default.
W2012253308 cites W2000995214 @default.
W2012253308 cites W2003217319 @default.
W2012253308 cites W2003641075 @default.
W2012253308 cites W2005663359 @default.
W2012253308 cites W2006415122 @default.
W2012253308 cites W2008727872 @default.
W2012253308 cites W2014184999 @default.
W2012253308 cites W2015145956 @default.
W2012253308 cites W2016719703 @default.
W2012253308 cites W2018123501 @default.
W2012253308 cites W2019321155 @default.
W2012253308 cites W2020752204 @default.
W2012253308 cites W2022634516 @default.
W2012253308 cites W2023271753 @default.
W2012253308 cites W2025699136 @default.
W2012253308 cites W2038299559 @default.
W2012253308 cites W2041208025 @default.
W2012253308 cites W2042280535 @default.
W2012253308 cites W2043020300 @default.
W2012253308 cites W2044228737 @default.
W2012253308 cites W2053030648 @default.
W2012253308 cites W2059299337 @default.
W2012253308 cites W2059814192 @default.
W2012253308 cites W2066428616 @default.
W2012253308 cites W2068834466 @default.
W2012253308 cites W2069006374 @default.
W2012253308 cites W2069691214 @default.
W2012253308 cites W2071967633 @default.
W2012253308 cites W2073273128 @default.
W2012253308 cites W2073467624 @default.
W2012253308 cites W2082545972 @default.
W2012253308 cites W2086634221 @default.
W2012253308 cites W2086957099 @default.
W2012253308 cites W2091862222 @default.
W2012253308 cites W2094899929 @default.
W2012253308 cites W2112940941 @default.
W2012253308 cites W2126111691 @default.
W2012253308 cites W2139378879 @default.
W2012253308 cites W2148086280 @default.
W2012253308 cites W2148344847 @default.
W2012253308 cites W2317498826 @default.
W2012253308 cites W2323019216 @default.
W2012253308 cites W2330480775 @default.
W2012253308 cites W3005892601 @default.
W2012253308 cites W4240035468 @default.
W2012253308 cites W4299551335 @default.
W2012253308 cites W1977330935 @default.
W2012253308 doi "https://doi.org/10.1063/1.4870595" @default.
W2012253308 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24735297" @default.
W2012253308 hasPublicationYear "2014" @default.
W2012253308 type Work @default.
W2012253308 sameAs 2012253308 @default.
W2012253308 citedByCount "12" @default.
W2012253308 countsByYear W20122533082014 @default.
W2012253308 countsByYear W20122533082016 @default.
W2012253308 countsByYear W20122533082017 @default.
W2012253308 countsByYear W20122533082018 @default.
W2012253308 countsByYear W20122533082019 @default.
W2012253308 countsByYear W20122533082020 @default.
W2012253308 countsByYear W20122533082022 @default.
W2012253308 crossrefType "journal-article" @default.
W2012253308 hasAuthorship W2012253308A5044943485 @default.
W2012253308 hasAuthorship W2012253308A5072717593 @default.
W2012253308 hasAuthorship W2012253308A5084297396 @default.
W2012253308 hasBestOaLocation W20122533081 @default.
W2012253308 hasConcept C121332964 @default.
W2012253308 hasConcept C148093993 @default.
W2012253308 hasConcept C154018700 @default.
W2012253308 hasConcept C159467904 @default.
W2012253308 hasConcept C178790620 @default.
W2012253308 hasConcept C184779094 @default.
W2012253308 hasConcept C185592680 @default.