SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2805252021> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2805252021 abstract "We present a description of the break-up of halo nuclei in peripheral nuclear reactions by coupling a model of the projectile motivated by Halo Effective Field Theory with a fully dynamical treatment of the reaction using the Dynamical Eikonal Approximation. Our description of the halo system reproduces its long-range properties, i.e., binding energy and asymptotic normalization coefficients of bound states and phase shifts of continuum states. As an application we consider the break-up of 11Be in collisions on Pb and C targets. Taking the input for our Halo-EFT-inspired description of 11Be from a recent ab initio calculation of that system yields a good description of the Coulomb-dominated breakup on Pb at energies up to about 2 MeV, with the result essentially independent of the short-distance part of the halo wave function. However, the nuclear dominated break-up on C is more sensitive to short-range physics. The role of spectroscopic factors and possible extensions of our approach to include additional short-range mechanisms are also discussed." @default.
W2805252021 created "2018-06-13" @default.
W2805252021 creator A5039095399 @default.
W2805252021 creator A5045040611 @default.
W2805252021 creator A5066112424 @default.
W2805252021 date "2018-09-21" @default.
W2805252021 modified "2023-10-01" @default.
W2805252021 title "Dissecting reaction calculations using halo effective field theory and <i>ab initio</i> input" @default.
W2805252021 cites W1555961330 @default.
W2805252021 cites W1588476375 @default.
W2805252021 cites W1593875362 @default.
W2805252021 cites W1675125718 @default.
W2805252021 cites W1970759989 @default.
W2805252021 cites W1979767799 @default.
W2805252021 cites W1983964402 @default.
W2805252021 cites W1985122156 @default.
W2805252021 cites W1990582576 @default.
W2805252021 cites W1992530906 @default.
W2805252021 cites W1996216095 @default.
W2805252021 cites W1996410040 @default.
W2805252021 cites W1998140389 @default.
W2805252021 cites W2000923008 @default.
W2805252021 cites W2000930495 @default.
W2805252021 cites W2001513215 @default.
W2805252021 cites W2003636431 @default.
W2805252021 cites W2005336994 @default.
W2805252021 cites W2008611632 @default.
W2805252021 cites W2012257045 @default.
W2805252021 cites W2012427045 @default.
W2805252021 cites W2013206436 @default.
W2805252021 cites W2014025711 @default.
W2805252021 cites W2018422756 @default.
W2805252021 cites W2019006130 @default.
W2805252021 cites W2019020057 @default.
W2805252021 cites W2019293116 @default.
W2805252021 cites W2019407234 @default.
W2805252021 cites W2021708725 @default.
W2805252021 cites W2031586984 @default.
W2805252021 cites W2041857763 @default.
W2805252021 cites W2043829232 @default.
W2805252021 cites W2048009002 @default.
W2805252021 cites W2050174944 @default.
W2805252021 cites W2051966603 @default.
W2805252021 cites W2054244671 @default.
W2805252021 cites W2056234195 @default.
W2805252021 cites W2059940052 @default.
W2805252021 cites W2067100527 @default.
W2805252021 cites W2074991550 @default.
W2805252021 cites W2088681849 @default.
W2805252021 cites W2089112059 @default.
W2805252021 cites W2090737625 @default.
W2805252021 cites W2092634064 @default.
W2805252021 cites W2102129655 @default.
W2805252021 cites W2110285102 @default.
W2805252021 cites W2117333494 @default.
W2805252021 cites W2117389595 @default.
W2805252021 cites W2123292431 @default.
W2805252021 cites W2128435291 @default.
W2805252021 cites W2131320621 @default.
W2805252021 cites W2132139479 @default.
W2805252021 cites W2133795277 @default.
W2805252021 cites W2163419653 @default.
W2805252021 cites W2297162296 @default.
W2805252021 cites W2315201176 @default.
W2805252021 cites W2511106705 @default.
W2805252021 cites W2569001757 @default.
W2805252021 cites W2586101695 @default.
W2805252021 cites W2595622395 @default.
W2805252021 cites W2601462605 @default.
W2805252021 cites W2628581433 @default.
W2805252021 cites W2803488386 @default.
W2805252021 cites W2883141354 @default.
W2805252021 cites W3098807785 @default.
W2805252021 cites W3098984747 @default.
W2805252021 cites W3099253050 @default.
W2805252021 cites W3101427182 @default.
W2805252021 cites W3172185489 @default.
W2805252021 doi "https://doi.org/10.1103/physrevc.98.034610" @default.
W2805252021 hasPublicationYear "2018" @default.
W2805252021 type Work @default.
W2805252021 sameAs 2805252021 @default.
W2805252021 citedByCount "23" @default.
W2805252021 countsByYear W28052520212018 @default.
W2805252021 countsByYear W28052520212019 @default.
W2805252021 countsByYear W28052520212020 @default.
W2805252021 countsByYear W28052520212021 @default.
W2805252021 countsByYear W28052520212022 @default.
W2805252021 countsByYear W28052520212023 @default.
W2805252021 crossrefType "journal-article" @default.
W2805252021 hasAuthorship W2805252021A5039095399 @default.
W2805252021 hasAuthorship W2805252021A5045040611 @default.
W2805252021 hasAuthorship W2805252021A5066112424 @default.
W2805252021 hasBestOaLocation W28052520211 @default.
W2805252021 hasConcept C113603373 @default.
W2805252021 hasConcept C121332964 @default.
W2805252021 hasConcept C141595757 @default.
W2805252021 hasConcept C147120987 @default.
W2805252021 hasConcept C164418477 @default.
W2805252021 hasConcept C174084160 @default.
W2805252021 hasConcept C184665706 @default.