Status of Theory and Experiment in Hadronic Parity Violation | Zendy

W. M. Snow | Zendy; M. W. Ahmed | Zendy; J. D. Bowman | Zendy; Chris Crawford | Zendy; N. Fomin | Zendy; H. Gao | Zendy; Michael Gericke | Zendy; Vladimir Gudkov | Zendy; Barry R. Holstein | Zendy; C. R. Howell | Zendy; P.R. Huffman | Zendy; W. T. H. van Oers | Zendy; S. Penttilä | Zendy; Y. Wu | Zendy

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Status of Theory and Experiment in Hadronic Parity Violation

Author(s) -

W. M. Snow,

M. W. Ahmed,

J. D. Bowman,

Chris Crawford,

N. Fomin,

H. Gao,

Michael Gericke,

Vladimir Gudkov,

Barry R. Holstein,

C. R. Howell,

P.R. Huffman,

W. T. H. van Oers,

S. Penttilä,

Y. Wu

Publication year - 2016

Publication title -

international journal of modern physics conference series

Language(s) - English

Resource type - Journals

ISSN - 2010-1945

DOI - 10.1142/s2010194516600028

Subject(s) - physics , hadron , particle physics , parity (physics) , quantum chromodynamics , nuclear physics , quark , photon , nucleon , neutron , strong interaction , quantum mechanics

Hadronic parity violation uses quark-quark weak interactions to probe nonperturbative strong interaction dynamics through two nonperturbative QCD scales: [Formula: see text] and the fine-tuned MeV scales of NN bound states in low energy nuclear physics. The current and projected availability of high-intensity neutron and photon sources coupled with ongoing experiments and continuing developments in theoretical methods provide the opportunity to greatly expand our understanding of hadronic parity violation in few-nucleon systems. The current status of these efforts and future plans are discussed.

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