SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2588618097> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2588618097 abstract "Accessing hadronic form factors at large momentum transfers has traditionally presented a challenge for lattice QCD simulations. Here, we demonstrate how a novel implementation of the Feynman-Hellmann method can be employed to calculate hadronic form factors in lattice QCD at momenta much higher than previously accessible. Our simulations are performed on a single set of gauge configurations with three flavors of degenerate mass quarks corresponding to ${m}_{ensuremath{pi}}ensuremath{approx}470text{ }text{ }mathrm{MeV}$. We are able to determine the electromagnetic form factors of the pion and nucleon up to approximately $6text{ }text{ }{mathrm{GeV}}^{2}$, with results for the ratio of the electric and magnetic form factors of the proton at our simulated quark mass agreeing well with experimental results." @default.
W2588618097 created "2017-02-24" @default.
W2588618097 creator A5001457675 @default.
W2588618097 creator A5014018055 @default.
W2588618097 creator A5021940005 @default.
W2588618097 creator A5028909401 @default.
W2588618097 creator A5029492036 @default.
W2588618097 creator A5035084699 @default.
W2588618097 creator A5049625437 @default.
W2588618097 creator A5053813972 @default.
W2588618097 creator A5055511542 @default.
W2588618097 creator A5068608722 @default.
W2588618097 creator A5071477158 @default.
W2588618097 creator A5071831628 @default.
W2588618097 creator A5076651122 @default.
W2588618097 date "2017-12-26" @default.
W2588618097 modified "2023-10-15" @default.
W2588618097 title "Electromagnetic form factors at large momenta from lattice QCD" @default.
W2588618097 cites W1575233118 @default.
W2588618097 cites W1851008583 @default.
W2588618097 cites W1952510669 @default.
W2588618097 cites W1970309454 @default.
W2588618097 cites W1973524082 @default.
W2588618097 cites W1996391167 @default.
W2588618097 cites W2012922160 @default.
W2588618097 cites W2015239506 @default.
W2588618097 cites W2015889946 @default.
W2588618097 cites W2028986483 @default.
W2588618097 cites W2029795998 @default.
W2588618097 cites W2041233564 @default.
W2588618097 cites W2047939248 @default.
W2588618097 cites W2051982098 @default.
W2588618097 cites W2054043052 @default.
W2588618097 cites W2056701546 @default.
W2588618097 cites W2081741086 @default.
W2588618097 cites W2088656775 @default.
W2588618097 cites W2088912018 @default.
W2588618097 cites W2090689392 @default.
W2588618097 cites W2093708650 @default.
W2588618097 cites W2093928299 @default.
W2588618097 cites W2100631635 @default.
W2588618097 cites W2100937692 @default.
W2588618097 cites W2114321830 @default.
W2588618097 cites W2116679757 @default.
W2588618097 cites W2119098569 @default.
W2588618097 cites W2120494557 @default.
W2588618097 cites W2121160050 @default.
W2588618097 cites W2133547442 @default.
W2588618097 cites W2134179461 @default.
W2588618097 cites W2141795111 @default.
W2588618097 cites W2162440757 @default.
W2588618097 cites W2181594913 @default.
W2588618097 cites W2247613014 @default.
W2588618097 cites W2257638662 @default.
W2588618097 cites W2266319783 @default.
W2588618097 cites W2277576405 @default.
W2588618097 cites W2280006024 @default.
W2588618097 cites W2324577955 @default.
W2588618097 cites W2331200118 @default.
W2588618097 cites W2409864918 @default.
W2588618097 cites W2521975766 @default.
W2588618097 cites W2533595364 @default.
W2588618097 cites W2571424131 @default.
W2588618097 cites W2592806569 @default.
W2588618097 cites W2749326426 @default.
W2588618097 cites W3098049992 @default.
W2588618097 cites W3121823746 @default.
W2588618097 cites W4248886625 @default.
W2588618097 cites W4291142165 @default.
W2588618097 doi "https://doi.org/10.1103/physrevd.96.114509" @default.
W2588618097 hasPublicationYear "2017" @default.
W2588618097 type Work @default.
W2588618097 sameAs 2588618097 @default.
W2588618097 citedByCount "36" @default.
W2588618097 countsByYear W25886180972018 @default.
W2588618097 countsByYear W25886180972019 @default.
W2588618097 countsByYear W25886180972020 @default.
W2588618097 countsByYear W25886180972021 @default.
W2588618097 countsByYear W25886180972022 @default.
W2588618097 countsByYear W25886180972023 @default.
W2588618097 crossrefType "journal-article" @default.
W2588618097 hasAuthorship W2588618097A5001457675 @default.
W2588618097 hasAuthorship W2588618097A5014018055 @default.
W2588618097 hasAuthorship W2588618097A5021940005 @default.
W2588618097 hasAuthorship W2588618097A5028909401 @default.
W2588618097 hasAuthorship W2588618097A5029492036 @default.
W2588618097 hasAuthorship W2588618097A5035084699 @default.
W2588618097 hasAuthorship W2588618097A5049625437 @default.
W2588618097 hasAuthorship W2588618097A5053813972 @default.
W2588618097 hasAuthorship W2588618097A5055511542 @default.
W2588618097 hasAuthorship W2588618097A5068608722 @default.
W2588618097 hasAuthorship W2588618097A5071477158 @default.
W2588618097 hasAuthorship W2588618097A5071831628 @default.
W2588618097 hasAuthorship W2588618097A5076651122 @default.
W2588618097 hasBestOaLocation W25886180972 @default.
W2588618097 hasConcept C109214941 @default.
W2588618097 hasConcept C117137515 @default.
W2588618097 hasConcept C121332964 @default.
W2588618097 hasConcept C154153549 @default.
W2588618097 hasConcept C172695262 @default.