Nucleon matrix elements of twist-3 and 4 operators from the instanton vacuum
Abstract
The spin-dependent twist-3 and 4 nucleon matrix elements d(2) and f(2) describing power corrections to the Bjorken and Ellis-Jaffe sum rules are computed in the instanton vacuum. A systematic expansion in the small packing fraction of the instanton medium, rho / R << 1, is performed. We find that the twist-3 matrix element d(2) is suppressed [of order (rho / R)4], while the twist-4 matrix element f(2) is of order unity. Numerically, d(2) << f(2). The small value of d(2) 10-3 obtained from instantons is consistent with the recent E143 measurements of the structure function g2, where d(2) enters at the same level as the twist-2 contribution.
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