526 K
17 pp.
 
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TitleHadronic Form Factors in Asymptotically Free Field Theories
Author(s)Gross, D. J.; Treiman, S. B.
Publication Date1974
Report NumberCOO--3072-25
Unique IdentifierACC0468
Other NumbersOSTI ID: 4239303
Research OrgPrinceton University, N.J. (USA). Joseph Henry Laboratories
Contract NoAT(11-1)-3072
Sponsoring OrgU.S. Atomic Energy Commission (AEC)
SubjectN64240 -- Physics (High Energy) -- Particle Interactions & Properties (Theoretical) --Strong (General); N76200 -- Physics (Theoretical) -- Quantum Field Theories; Nucleons -- Form Factors; Scale Invariance -- Gauge Invariance; Boundary Conditions; Duality; Hadrons; Quantum Field Theory; Strong Interactions; Structure Functions; Threshold Energy
KeywordsPhysics (Particle)
Related Web PagesDavid J. Gross and the Strong Force
AbstractThe breakdown of Bjorken scaling in asymptotically free gauge theories of the strong interactions is explored for its implications on the large q{sup 2} behavior of nucleon form factors. Duality arguments of Bloom and Gilman suggest a connection between the form factors and the threshold properties of the deep inelastic structure functions. The latter are addressed directly in an analysis of asymptotically free theories; and through the duality connection we are then led to statements about the form factors. For very large q{sup 2} the form factors are predicted to fall faster than any inverse power of q{sup 2}. For the more modest range of q{sup 2} reached in existing experiments the agreement with data is fairly good, though this may well be fortuitous. Extrapolations beyond this range are presented.
526 K
17 pp.
 
View Document 
  


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