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arxiv: 0908.1514 · v1 · submitted 2009-08-11 · ⚛️ nucl-ex

Probing Cold Dense Nuclear Matter

R. Subedi , R. Shneor , P. Monaghan , B.D.Anderson , K. Aniol , J. Annand , J. Arrington , H. Benaoum
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F. Benmokhtar W. Bertozzi W. Boeglin J.-P.Chen Seonho Choi E. Cisbani B. Craver S. Frullani F. Garibaldi S. Gilad R. Gilman O. Glamazdin J.-O.Hansen D.W. Higinbotham T. Holmstrom H. Ibrahim R. Igarashi C.W. de Jager E. Jans X. Jiang L. Kaufman A. Kelleher A. Kolarkar G. Kumbartzki J.J. LeRose R. Lindgren N. Liyanage D.J. Margaziotis P. Markowitz S. Marrone M. Mazouz D. Meekins R. Michaels B. Moffit C.F. Perdrisat E. Piasetzky M. Potokar V. Punjabi Y. Qiang J. Reinhold G. Ron G. Rosner A. Saha B. Sawatzky A. Shahinyan S. \v{S}irca K. Slifer P. Solvignon V. Sulkosky G. Urciuoli E. Voutier J.W. Watson L.B. Weinstein B. Wojtsekhowski S. Wood X.-C.Zheng L. Zhu
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keywords pairscolddensehighmomentumnuclearnucleuscorrelated
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The protons and neutrons in a nucleus can form strongly correlated nucleon pairs. Scattering experiments, where a proton is knocked-out of the nucleus with high momentum transfer and high missing momentum, show that in 12C the neutron-proton pairs are nearly twenty times as prevalent as proton-proton pairs and, by inference, neutron-neutron pairs. This difference between the types of pairs is due to the nature of the strong force and has implications for understanding cold dense nuclear systems such as neutron stars.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Experimental Study of Bremsstrahlung Gamma Ray Emission and Short-Range Correlations in $^{124}$Sn+$^{124}$Sn Collisions at 25 MeV/u

    nucl-ex 2025-08 unverdicted novelty 5.0

    Precision measurement of bremsstrahlung gamma rays in 124Sn+124Sn collisions at 25 MeV/u yields a high-momentum tail fraction of (20 ± 3)% in 124Sn when compared to IBUU simulations.

  2. Short-range correlations in nuclei

    nucl-ex 2026-05 unverdicted novelty 2.0

    Short-range correlated pairs account for roughly 20% of nucleons in any nucleus and nearly all high-momentum nucleons, originating from the nucleon-nucleon tensor force.