Hadron mass effects in power corrections to Event Shapes
Name
Confinement X_102.pdf
Description
Published version
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287.24 KB
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Unknown
Checksum (MD5)
ed37bf3878b7c3514cc4ddc7569856c9
Author(s)
Mateu, Vicent
Stewart, Iain W
Thaler, Jesse
Date Issued
May 21, 2013
Publisher
Sissa Medialab
Citation
Mateu, Vicent, Stewart, Iain W. and Thaler, Jesse. 2013. "Hadron mass effects in power corrections to Event Shapes."
Version
Final published version
Abstract
We study the effect of hadron masses on the leading power correction of dijet event-shape distributions. We define the transverse velocity operator, that describes the effects of hadron masses. It depends on the "transverse velocity" r, which is different from one only for non-vanishing hadron masses. We find that hadron-mass effects in general break universality. However we provide a simple method to identify universality classes of event shapes with a common power correction. We also compute the anomalous dimension of the power correction and the structure of the corresponding Wilson coefficient, finding a nontrivial result. © Copyright owned by the author(s).
MIT Department
Massachusetts Institute of Technology. Center for Theoretical Physics
Terms of Use
Creative Commons Attribution-Noncommercial-Share Alike
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DOI of Published Version
10.22323/1.171.0102
