FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2009152090> ?p ?o ?g. }

• W2009152090 endingPage "513" @default.
• W2009152090 startingPage "461" @default.
• W2009152090 abstract "Using the pure spinor formalism in part I (Mafra et al., preprint [1]) we compute the complete tree-level amplitude of N massless open strings and find a striking simple and compact form in terms of minimal building blocks: the full N-point amplitude is expressed by a sum over (N−3)! Yang–Mills partial subamplitudes each multiplying a multiple Gaussian hypergeometric function. While the former capture the space–time kinematics of the amplitude the latter encode the string effects. This result disguises a lot of structure linking aspects of gauge amplitudes as color and kinematics with properties of generalized Euler integrals. In this part II the structure of the multiple hypergeometric functions is analyzed in detail: their relations to monodromy equations, their minimal basis structure, and methods to determine their poles and transcendentality properties are proposed. Finally, a Gröbner basis analysis provides independent sets of rational functions in the Euler integrals." @default.
• W2009152090 created "2016-06-24" @default.
• W2009152090 creator A5021575581 @default.
• W2009152090 creator A5069999837 @default.
• W2009152090 creator A5072690707 @default.
• W2009152090 date "2013-08-01" @default.
• W2009152090 modified "2023-10-14" @default.
• W2009152090 title "Complete N-point superstring disk amplitude II. Amplitude and hypergeometric function structure" @default.
• W2009152090 cites W1524850764 @default.
• W2009152090 cites W1761310710 @default.
• W2009152090 cites W1811565114 @default.
• W2009152090 cites W1971815829 @default.
• W2009152090 cites W1975409473 @default.
• W2009152090 cites W1984830479 @default.
• W2009152090 cites W1985605285 @default.
• W2009152090 cites W1988441141 @default.
• W2009152090 cites W1988998898 @default.
• W2009152090 cites W1989588028 @default.
• W2009152090 cites W1991083091 @default.
• W2009152090 cites W1997572794 @default.
• W2009152090 cites W2005889849 @default.
• W2009152090 cites W2015667446 @default.
• W2009152090 cites W2019093782 @default.
• W2009152090 cites W2019992578 @default.
• W2009152090 cites W2033217580 @default.
• W2009152090 cites W2042805225 @default.
• W2009152090 cites W2054464113 @default.
• W2009152090 cites W2056432625 @default.
• W2009152090 cites W2057062405 @default.
• W2009152090 cites W2060300827 @default.
• W2009152090 cites W2063132414 @default.
• W2009152090 cites W2069633076 @default.
• W2009152090 cites W2077241752 @default.
• W2009152090 cites W2087744273 @default.
• W2009152090 cites W2094001743 @default.
• W2009152090 cites W2123749971 @default.
• W2009152090 cites W2135896780 @default.
• W2009152090 cites W2141947414 @default.
• W2009152090 cites W2142071740 @default.
• W2009152090 cites W2147366846 @default.
• W2009152090 cites W2151956784 @default.
• W2009152090 cites W2160023088 @default.
• W2009152090 cites W2162554686 @default.
• W2009152090 cites W2315987160 @default.
• W2009152090 cites W2591750404 @default.
• W2009152090 cites W3099785732 @default.
• W2009152090 cites W3100328072 @default.
• W2009152090 cites W3101133985 @default.
• W2009152090 cites W3103968259 @default.
• W2009152090 cites W3105638001 @default.
• W2009152090 cites W3123769391 @default.
• W2009152090 cites W4210979103 @default.
• W2009152090 cites W4236994766 @default.
• W2009152090 doi "https://doi.org/10.1016/j.nuclphysb.2013.04.022" @default.
• W2009152090 hasPublicationYear "2013" @default.
• W2009152090 type Work @default.
• W2009152090 sameAs 2009152090 @default.
• W2009152090 citedByCount "100" @default.
• W2009152090 countsByYear W20091520902013 @default.
• W2009152090 countsByYear W20091520902014 @default.
• W2009152090 countsByYear W20091520902015 @default.
• W2009152090 countsByYear W20091520902016 @default.
• W2009152090 countsByYear W20091520902017 @default.
• W2009152090 countsByYear W20091520902018 @default.
• W2009152090 countsByYear W20091520902019 @default.
• W2009152090 countsByYear W20091520902020 @default.
• W2009152090 countsByYear W20091520902021 @default.
• W2009152090 countsByYear W20091520902022 @default.
• W2009152090 countsByYear W20091520902023 @default.
• W2009152090 crossrefType "journal-article" @default.
• W2009152090 hasAuthorship W2009152090A5021575581 @default.
• W2009152090 hasAuthorship W2009152090A5069999837 @default.
• W2009152090 hasAuthorship W2009152090A5072690707 @default.
• W2009152090 hasBestOaLocation W20091520902 @default.
• W2009152090 hasConcept C116674579 @default.
• W2009152090 hasConcept C121332964 @default.
• W2009152090 hasConcept C134306372 @default.
• W2009152090 hasConcept C158241908 @default.
• W2009152090 hasConcept C165175332 @default.
• W2009152090 hasConcept C180205008 @default.
• W2009152090 hasConcept C193718343 @default.
• W2009152090 hasConcept C197320386 @default.
• W2009152090 hasConcept C202444582 @default.
• W2009152090 hasConcept C20288 @default.
• W2009152090 hasConcept C33923547 @default.
• W2009152090 hasConcept C37914503 @default.
• W2009152090 hasConcept C54937798 @default.
• W2009152090 hasConcept C62520636 @default.
• W2009152090 hasConcept C92941272 @default.
• W2009152090 hasConcept C96403706 @default.
• W2009152090 hasConceptScore W2009152090C116674579 @default.
• W2009152090 hasConceptScore W2009152090C121332964 @default.
• W2009152090 hasConceptScore W2009152090C134306372 @default.
• W2009152090 hasConceptScore W2009152090C158241908 @default.
• W2009152090 hasConceptScore W2009152090C165175332 @default.
• W2009152090 hasConceptScore W2009152090C180205008 @default.
• W2009152090 hasConceptScore W2009152090C193718343 @default.
• W2009152090 hasConceptScore W2009152090C197320386 @default.

• next