FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2013181895> ?p ?o ?g. }

• W2013181895 abstract "Level widths and level densities of nuclei in the $32<~A<~60$ mass region are inferred from the fluctuation analysis of total neutron cross sections. The experimentally determined level densities are compared to phenomenological and microscopic predictions. The total neutron cross sections were measured in the $0.75<~{E}_{n}<~11.3 mathrm{MeV}$ range for ${}^{31}mathrm{P},$ ${}^{32}mathrm{S},$ ${}^{39}mathrm{K},$ ${}^{51}mathrm{V},$ ${}^{56}mathrm{Fe},$ and ${}^{59}mathrm{Co}$ using a white neutron source and standard time-of-flight techniques. Measured cross sections agree well in magnitude and structure with earlier measurements. Nuclear level widths and cross section variances were determined for the compound nuclei ${}^{32}mathrm{P},$ ${}^{33}mathrm{S},$ ${}^{40}mathrm{K},$ ${}^{52}mathrm{V},$ ${}^{57}mathrm{Fe},$ and ${}^{60}mathrm{Co}$ by means of Fourier analysis of the fluctuating excitation functions and subsequent least squares fit to the resulting $mathrm{ln}{S}_{k}$ spectra. Nuclear level densities for the above compound nuclei were extracted by relating them to the variance (variance method) of the total neutron cross sections via Ericson theory of fluctuating cross sections. Furthermore, level density values were derived by relating level densities to average level widths (gamma method) via compound nuclear theory. The present study shows good agreement between the two methods for ${}^{32}mathrm{P}$ and ${}^{33}mathrm{S},$ with an uncertainty of 30--40 %. Inclusion of a finite energy resolution correction and use of local instead of global optical model parameters improve agreement, but do not resolve the discrepancy between the two methods completely, especially for $A>40.$ Nuclear level densities were compared with microscopic calculations utilizing a BCS pairing Hamiltonian and specific sets of realistic sets of single-particle energies. A further comparison was made with results obtained from phenomenological models based on the Fermi gas formalism. For ${}^{32}mathrm{P},$ ${}^{33}mathrm{S},$ and ${}^{40}mathrm{K},$ experimental values and phenomenological predictions agree well, but diverge with increasing A. From least squares fits to the present level density data, level density parameters $(a$ and $ensuremath{Delta})$ were extracted for ${}^{32}mathrm{P},$ ${}^{33}mathrm{S},$ and ${}^{40}mathrm{K}.$ Results for the level density parameter are consistent with $a=A/9.$" @default.
• W2013181895 created "2016-06-24" @default.
• W2013181895 creator A5020497585 @default.
• W2013181895 creator A5056638918 @default.
• W2013181895 creator A5075487497 @default.
• W2013181895 date "2000-11-17" @default.
• W2013181895 modified "2023-09-26" @default.
• W2013181895 title "Level widths and level densities of nuclei in the32<~A<~60mass region inferred from fluctuation analysis of total neutron cross sections" @default.
• W2013181895 cites W1497657859 @default.
• W2013181895 cites W1973750880 @default.
• W2013181895 cites W1979791402 @default.
• W2013181895 cites W1981244505 @default.
• W2013181895 cites W1982358147 @default.
• W2013181895 cites W1983525679 @default.
• W2013181895 cites W1986868128 @default.
• W2013181895 cites W1987733359 @default.
• W2013181895 cites W1992658563 @default.
• W2013181895 cites W1993011992 @default.
• W2013181895 cites W1995014037 @default.
• W2013181895 cites W1995348011 @default.
• W2013181895 cites W1996734705 @default.
• W2013181895 cites W1999566217 @default.
• W2013181895 cites W2003801770 @default.
• W2013181895 cites W2007582587 @default.
• W2013181895 cites W2014437371 @default.
• W2013181895 cites W2014667086 @default.
• W2013181895 cites W2016181203 @default.
• W2013181895 cites W2017178574 @default.
• W2013181895 cites W2023406695 @default.
• W2013181895 cites W2029517631 @default.
• W2013181895 cites W2029809580 @default.
• W2013181895 cites W2031099572 @default.
• W2013181895 cites W2034010662 @default.
• W2013181895 cites W2047362846 @default.
• W2013181895 cites W2048074191 @default.
• W2013181895 cites W2048831010 @default.
• W2013181895 cites W2052129049 @default.
• W2013181895 cites W2052843777 @default.
• W2013181895 cites W2054407325 @default.
• W2013181895 cites W2056125641 @default.
• W2013181895 cites W2061099684 @default.
• W2013181895 cites W2071227003 @default.
• W2013181895 cites W2075998689 @default.
• W2013181895 cites W2078534771 @default.
• W2013181895 cites W2080099450 @default.
• W2013181895 cites W2080189619 @default.
• W2013181895 cites W2083787296 @default.
• W2013181895 cites W2084938908 @default.
• W2013181895 cites W2086874957 @default.
• W2013181895 cites W2092594424 @default.
• W2013181895 cites W2092631288 @default.
• W2013181895 cites W2093687351 @default.
• W2013181895 cites W2468439714 @default.
• W2013181895 cites W4315460 @default.
• W2013181895 doi "https://doi.org/10.1103/physrevc.62.064312" @default.
• W2013181895 hasPublicationYear "2000" @default.
• W2013181895 type Work @default.
• W2013181895 sameAs 2013181895 @default.
• W2013181895 citedByCount "27" @default.
• W2013181895 countsByYear W20131818952012 @default.
• W2013181895 countsByYear W20131818952015 @default.
• W2013181895 countsByYear W20131818952016 @default.
• W2013181895 countsByYear W20131818952017 @default.
• W2013181895 countsByYear W20131818952018 @default.
• W2013181895 countsByYear W20131818952019 @default.
• W2013181895 countsByYear W20131818952020 @default.
• W2013181895 crossrefType "journal-article" @default.
• W2013181895 hasAuthorship W2013181895A5020497585 @default.
• W2013181895 hasAuthorship W2013181895A5056638918 @default.
• W2013181895 hasAuthorship W2013181895A5075487497 @default.
• W2013181895 hasConcept C121332964 @default.
• W2013181895 hasConcept C152568617 @default.
• W2013181895 hasConcept C159985019 @default.
• W2013181895 hasConcept C184779094 @default.
• W2013181895 hasConcept C185544564 @default.
• W2013181895 hasConcept C186370098 @default.
• W2013181895 hasConcept C192562407 @default.
• W2013181895 hasConcept C204323151 @default.
• W2013181895 hasConcept C206191943 @default.
• W2013181895 hasConcept C62520636 @default.
• W2013181895 hasConcept C83581075 @default.
• W2013181895 hasConceptScore W2013181895C121332964 @default.
• W2013181895 hasConceptScore W2013181895C152568617 @default.
• W2013181895 hasConceptScore W2013181895C159985019 @default.
• W2013181895 hasConceptScore W2013181895C184779094 @default.
• W2013181895 hasConceptScore W2013181895C185544564 @default.
• W2013181895 hasConceptScore W2013181895C186370098 @default.
• W2013181895 hasConceptScore W2013181895C192562407 @default.
• W2013181895 hasConceptScore W2013181895C204323151 @default.
• W2013181895 hasConceptScore W2013181895C206191943 @default.
• W2013181895 hasConceptScore W2013181895C62520636 @default.
• W2013181895 hasConceptScore W2013181895C83581075 @default.
• W2013181895 hasIssue "6" @default.
• W2013181895 hasLocation W20131818951 @default.
• W2013181895 hasOpenAccess W2013181895 @default.
• W2013181895 hasPrimaryLocation W20131818951 @default.
• W2013181895 hasRelatedWork W1502529382 @default.
• W2013181895 hasRelatedWork W1976004445 @default.
• W2013181895 hasRelatedWork W1997086491 @default.
• W2013181895 hasRelatedWork W2007154357 @default.

• next