Energy dependence of nonlocal optical potentials
Recently, a variety of studies have shown the importance of including nonlocality in the description of reactions. The goal of this work is to revisit the phenomenological approach to determining nonlocal optical potentials from elastic scattering. We perform a χ2 analysis of neutron elastic scatter...
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| Veröffentlicht in: | Physical review. C 2017-11, Vol.96 (5), Article 051601 |
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| creator | Lovell, A. E. Bacq, P.-L. Capel, P. Nunes, F. M. Titus, L. J. |
| description | Recently, a variety of studies have shown the importance of including nonlocality in the description of reactions. The goal of this work is to revisit the phenomenological approach to determining nonlocal optical potentials from elastic scattering. We perform a χ2 analysis of neutron elastic scattering data off 40Ca, 90Zr, and 208Pb at energies E ≈ 5–40 MeV, assuming a Perey and Buck [Nucl. Phys. 32, 353 (1962)] or Tian et al. [Int. J. Mod. Phys. E 24, 1550006 (2015)] nonlocal form for the optical potential. We introduce energy and asymmetry dependencies in the imaginary part of the potential and refit the data to obtain a global parametrization. Independently of the starting point in the minimization procedure, an energy dependence in the imaginary depth is required for a good description of the data across the included energy range. We then present two parametrizations, both of which represent an improvement over the original potentials for the fitted nuclei as well as for other nuclei not included in our fit. Our results show that, even when including the standard Gaussian nonlocality in optical potential, a significant energy dependence is required to describe elastic-scattering data. |
| doi_str_mv | 10.1103/PhysRevC.96.051601 |
| format | Article |
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Independently of the starting point in the minimization procedure, an energy dependence in the imaginary depth is required for a good description of the data across the included energy range. We then present two parametrizations, both of which represent an improvement over the original potentials for the fitted nuclei as well as for other nuclei not included in our fit. 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Independently of the starting point in the minimization procedure, an energy dependence in the imaginary depth is required for a good description of the data across the included energy range. We then present two parametrizations, both of which represent an improvement over the original potentials for the fitted nuclei as well as for other nuclei not included in our fit. Our results show that, even when including the standard Gaussian nonlocality in optical potential, a significant energy dependence is required to describe elastic-scattering data.</description><subject>direct reactions</subject><subject>energy dependent potentials</subject><subject>models & methods for nuclear reactions</subject><subject>neutron elastic scattering</subject><subject>non-local optical potentials</subject><subject>NUCLEAR PHYSICS AND RADIATION PHYSICS</subject><subject>nuclear reactions</subject><subject>nucleon induced nuclear reactions</subject><subject>optical, coupled-channel & distorted wave models</subject><issn>2469-9985</issn><issn>2469-9993</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNo9kM1KxDAURoMoOIzzAq6K-9Z7e9M0Wcow_sCAIroObXrrVMakNEGYt7fDqKvzLQ7f4ghxjVAgAt2-7A7xlb_XhVEFVKgAz8SilMrkxhg6_9-6uhSrGD8BYJZMjbAQsPE8fRyyjkf2HXvHWegzH_w-uGafhTENR44hsU9Ds49X4qKfwatfLsX7_eZt_Zhvnx-e1nfb3BHqlNclt-RYayU7ajuiGrnW0iGwplZLblgRGyV7wmZWwSitgSvoSAKWmpbi5vQbYhpsdENit3PBe3bJolREJc1SeZLcFGKcuLfjNHw108Ei2GMb-9fGGmVPbegHR7ZX1g</recordid><startdate>20171129</startdate><enddate>20171129</enddate><creator>Lovell, A. 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The goal of this work is to revisit the phenomenological approach to determining nonlocal optical potentials from elastic scattering. We perform a χ2 analysis of neutron elastic scattering data off 40Ca, 90Zr, and 208Pb at energies E ≈ 5–40 MeV, assuming a Perey and Buck [Nucl. Phys. 32, 353 (1962)] or Tian et al. [Int. J. Mod. Phys. E 24, 1550006 (2015)] nonlocal form for the optical potential. We introduce energy and asymmetry dependencies in the imaginary part of the potential and refit the data to obtain a global parametrization. Independently of the starting point in the minimization procedure, an energy dependence in the imaginary depth is required for a good description of the data across the included energy range. We then present two parametrizations, both of which represent an improvement over the original potentials for the fitted nuclei as well as for other nuclei not included in our fit. Our results show that, even when including the standard Gaussian nonlocality in optical potential, a significant energy dependence is required to describe elastic-scattering data.</abstract><cop>United States</cop><pub>American Physical Society (APS)</pub><doi>10.1103/PhysRevC.96.051601</doi><oa>free_for_read</oa></addata></record> |
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| source | American Physical Society Journals |
| subjects | direct reactions energy dependent potentials models & methods for nuclear reactions neutron elastic scattering non-local optical potentials NUCLEAR PHYSICS AND RADIATION PHYSICS nuclear reactions nucleon induced nuclear reactions optical, coupled-channel & distorted wave models |
| title | Energy dependence of nonlocal optical potentials |
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