Prospects for the Precision Measurement of Alpha_S

P. N. Burrows (MIT); L. Dixon (SLAC); A. X. El-Khadra (University of; Illinois; Urbana); J. W. Gary (University of California; Riverside); W. Giele; (Fermilab); D. A. Harris (University of Rochester); S. Ritz (Columbia; University); B. A. Schumm (University of California; Santa Cruz)

arXiv:hep-ex/9612012·hep-ex·November 15, 2010·5 cites

Prospects for the Precision Measurement of Alpha_S

P. N. Burrows (MIT), L. Dixon (SLAC), A. X. El-Khadra (University of, Illinois, Urbana), J. W. Gary (University of California, Riverside), W. Giele, (Fermilab), D. A. Harris (University of Rochester), S. Ritz (Columbia, University), B. A. Schumm (University of California

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TL;DR

This paper discusses the potential for achieving a 1% measurement precision of the strong coupling constant alpha_s at future high-energy physics facilities, highlighting its significance for particle physics research.

Contribution

It provides an analysis of the prospects and challenges for precise alpha_s measurement at upcoming high-energy physics experiments.

Findings

01

Potential to reach 1% uncertainty in alpha_s measurement.

02

Implications for future high-energy physics facilities.

03

Guidance for experimental strategies to improve precision.

Abstract

The prospects for the measurement of the strong coupling constant alpha_msbar(M_Z) to a relative uncertainty of 1% are discussed. Particular emphasis is placed on the implications relating to future High Energy Physics facilities.

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Taxonomy

TopicsAtomic and Subatomic Physics Research · Nuclear physics research studies · Particle physics theoretical and experimental studies