Relativistic QCD view of the deuteron

C. E. Carlson; J. R. Hiller; R. J. Holt

doi:10.1146/annurev.nucl.47.1.395

Relativistic QCD view of the deuteron

C. E. Carlson, J. R. Hiller, R. J. Holt

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

The length scales for QCD and for nuclear physics are about the same, both about 1 fermi, and this directly motivates a search for a QCD explanation of nuclear phenomena, beginning with the deuteron. We first review the theoretical tools and results relevant to nuclear QCD, and then discuss data for several reactions. In particular, the remarkable data on deuteron photodisintegration agree with the naive perturbative QCD predictions for their scaling behavior and disagree with predictions from traditional approaches. This may be the first distinctive signature wherein considering the quark substructure in a nucleus is crucial in explaining some phenomenon.

Original language	English (US)
Pages (from-to)	395-428
Number of pages	34
Journal	Annual Review of Nuclear and Particle Science
Volume	47
Issue number	1
DOIs	https://doi.org/10.1146/annurev.nucl.47.1.395
State	Published - 1997
Externally published	Yes

Keywords

Electron scattering
Form factors
Hadron helicity conservation
Photodisintegration
Tensor polarization

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10.1146/annurev.nucl.47.1.395

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title = "Relativistic QCD view of the deuteron",

abstract = "The length scales for QCD and for nuclear physics are about the same, both about 1 fermi, and this directly motivates a search for a QCD explanation of nuclear phenomena, beginning with the deuteron. We first review the theoretical tools and results relevant to nuclear QCD, and then discuss data for several reactions. In particular, the remarkable data on deuteron photodisintegration agree with the naive perturbative QCD predictions for their scaling behavior and disagree with predictions from traditional approaches. This may be the first distinctive signature wherein considering the quark substructure in a nucleus is crucial in explaining some phenomenon.",

keywords = "Electron scattering, Form factors, Hadron helicity conservation, Photodisintegration, Tensor polarization",

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T1 - Relativistic QCD view of the deuteron

AU - Carlson, C. E.

AU - Hiller, J. R.

AU - Holt, R. J.

PY - 1997

Y1 - 1997

N2 - The length scales for QCD and for nuclear physics are about the same, both about 1 fermi, and this directly motivates a search for a QCD explanation of nuclear phenomena, beginning with the deuteron. We first review the theoretical tools and results relevant to nuclear QCD, and then discuss data for several reactions. In particular, the remarkable data on deuteron photodisintegration agree with the naive perturbative QCD predictions for their scaling behavior and disagree with predictions from traditional approaches. This may be the first distinctive signature wherein considering the quark substructure in a nucleus is crucial in explaining some phenomenon.

AB - The length scales for QCD and for nuclear physics are about the same, both about 1 fermi, and this directly motivates a search for a QCD explanation of nuclear phenomena, beginning with the deuteron. We first review the theoretical tools and results relevant to nuclear QCD, and then discuss data for several reactions. In particular, the remarkable data on deuteron photodisintegration agree with the naive perturbative QCD predictions for their scaling behavior and disagree with predictions from traditional approaches. This may be the first distinctive signature wherein considering the quark substructure in a nucleus is crucial in explaining some phenomenon.

KW - Electron scattering

KW - Form factors

KW - Hadron helicity conservation

KW - Photodisintegration

KW - Tensor polarization

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VL - 47

SP - 395

EP - 428

JO - Annual Review of Nuclear and Particle Science

JF - Annual Review of Nuclear and Particle Science

IS - 1

ER -

Relativistic QCD view of the deuteron

Abstract

Keywords

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