Collective enhancements in the level densities of Dy and Mo isotopes

Collective enhancements in the level densities of Dy and Mo isotopes

Бібліографічні деталі
Parent link:Physical Review C
Vol. 101, iss. 5.— 2020.— [054315, 11 р.]
Співавтор: Национальный исследовательский Томский политехнический университет Школа базовой инженерной подготовки Отделение математики и информатики
Інші автори: Rahmatinejad A. Azam, Shneydman T. M. Timur Markovich, Antonenko N. V. Nikolay Viktorovich, Bezbakh A. N. Anna Nikolaevna, Adamyan G. G. Gurgen Grigorjevich, Malov L. A. Leonard Aleksandrovich
Резюме:Title screen
Nuclear level densities in 94,96,98Mo and 160,162,164Dy isotopes are calculated using the single-particle spectrum obtained with the Woods-Saxon potential. The level-density parameters, spin cut-off factors, and moments of inertia are studied. Using the available experimental data at low excitation energies, the collective enhancements of the level densities are calculated and compared with those of the phenomenological model. In Mo isotopes, these semiempirical calculations agree better with the experiments in comparison to the phenomenological model assuming a spherical shape.
Мова:Англійська
Опубліковано: 2020
Предмети:
труды учёных ТПУ
электронный ресурс
плотность
изотопы
ядерные уровни
энергия возбуждения
Онлайн доступ:https://doi.org/10.1103/PhysRevC.101.054315
Формат: Електронний ресурс Частина з книги
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=665206
Опис
Резюме:Title screen
Nuclear level densities in 94,96,98Mo and 160,162,164Dy isotopes are calculated using the single-particle spectrum obtained with the Woods-Saxon potential. The level-density parameters, spin cut-off factors, and moments of inertia are studied. Using the available experimental data at low excitation energies, the collective enhancements of the level densities are calculated and compared with those of the phenomenological model. In Mo isotopes, these semiempirical calculations agree better with the experiments in comparison to the phenomenological model assuming a spherical shape.
DOI:10.1103/PhysRevC.101.054315

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