Momentum sharing in imbalanced Fermi systems

Momentum sharing in imbalanced Fermi systems

The atomic nucleus is composed of two different kinds of fermions: protons and neutrons. If the protons and neutrons did not interact, the Pauli exclusion principle would force the majority of fermions (usually neutrons) to have a higher average momentum. Our high-energy electron-scattering measurem...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-10, Vol.346 (6209)
Hauptverfasser: Hen, O., Sargsian, M., Weinstein, L. B., Piasetzky, E., Hakobyan, H., Brooks, W. K., Adhikari, K. P., Arrington, J., Asryan, G., Avakian, H., Ball, J., Baltzell, N. A., Battaglieri, M., Bedlinskiy, I., Bertozzi, W., Burkert, V. D., Cao, T., Carman, D. S., Celentano, A., Chandavar, S., Colaneri, L., Cole, P. L., Crede, V., De Vita, R., Doughty, D., Dugger, M., Dupre, R., Egiyan, H., El Alaoui, A., El Fassi, L., Elouadrhiri, L., Forest, T., Garillon, B., Gevorgyan, N., Ghandilyan, Y., Gilfoyle, G. P., Goetz, J. T., Gothe, R. W., Griffioen, K. A., Guo, L., Hafidi, K., Hanretty, C., Hicks, K., Hyde, C. E., Ilieva, Y., Ishkanov, B. I., Isupov, E. L., Jiang, H., Jo, H. S., Joo, K., Keller, D., Khandaker, M., Kim, A., Koirala, S., Korover, I., Kuhn, S. E., Kubarovsky, V., Lenisa, P., Levine, W. I., Lu, H. Y., MacGregor, I. J. D., Markov, N., Mayer, M., McKinnon, B., Mineeva, T., Mokeev, V., Movsisyan, A., Mustapha, B., Nadel-Turonski, P., Niccolai, S., Niculescu, G., Osipenko, M., Pasyuk, E., Phelps, W., Pogorelko, O., Procureur, S., Prok, Y., Protopopescu, D., Puckett, A. J. R., Ripani, M., Rizzo, A., Rosner, G., Schott, D., Sharabian, Y. G., Smith, G. D., Shneor, R., Stepanyan, S. S., Stoler, P., Strauch, S., Taiuti, M., Tkachenko, S., Ungaro, M., Vlassov, A. V., Wei, X., Wood, M. H., Wood, S. A., Zachariou, N., Zana, L., Zhao, Z. W., Zonta, I.
Format: Artikel
Sprache:eng
Schlagworte:
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
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Zusammenfassung:The atomic nucleus is composed of two different kinds of fermions: protons and neutrons. If the protons and neutrons did not interact, the Pauli exclusion principle would force the majority of fermions (usually neutrons) to have a higher average momentum. Our high-energy electron-scattering measurements using C-12, Al-27, Fe-56, and Pb-208 targets show that even in heavy, neutron-rich nuclei, short-range interactions between the fermions form correlated high-momentum neutron-proton pairs. Thus, in neutron-rich nuclei, protons have a greater probability than neutrons to have momentum greater than the Fermi momentum. This finding has implications ranging from nuclear few-body systems to neutron stars and may also be observable experimentally in two-spin-state, ultracold atomic gas systems.
ISSN:0036-8075
1095-9203