Size Isomers at Threshold States

IF 0.3 4区物理与天体物理 Q4 PHYSICS, NUCLEAR

Physics of Atomic Nuclei Pub Date : 2023-09-01 DOI:10.1134/S1063778823040142

A. S. Demyanova, A. N. Danilov, V. I. Starastsin, S. A. Goncharov, Yu. B. Gurov

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Abstract

An overview is provided for a new class of states, which we have named as the size isomers. Such states are weakly bound and have an exotic structure (cluster states, halo/‘‘skin’’). The development of methods for measuring the radii of nuclei in their short-lived excited states led to the discovery of new classes of states. The size of a nucleus defined by the radius of its nucleon (proton and neutron) density distribution and the proton charge distribution is one of the most fundamental and important nuclear characteristics. Nuclear radius determines the basic properties of nuclei and is a consequence of the fundamental features of the strong interaction. Up to now two groups of the size isomers were identified: the excited states with halos (\({}^{9}\)Be, \({}^{11}\)Be, \({}^{13}\)C, \({}^{13}\)N) and some specific alpha-cluster states (\({}^{11}\)B, \({}^{12}\)C, \({}^{13}\)C). All the observed states are dilute, however, some indication to possible existence of more compact than the ground states was obtained as well (in \({}^{13}\)C). The phenomenon of size isomerism occurred to be not a rare one especially if we take into account rotational bands based on some of such states. The structure of size isomers is related with some new features, e.g., rotating halos, halos in continuum, different types of quasimolecular configurations. Some rudimentary signs of alpha-particle condensation (a ‘‘ghost’’ of condensate) were observed in the Hoyle state of \({}^{12}\)C, however, we cannot speak about confirmation of this ambitious theory. Analogs to the Hoyle state, expected in \({}^{11}\)B, \({}^{13}\)C, \({}^{16}\)O, \({}^{20}\)Ne near the \(\alpha\)-emission thresholds, are considered.

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阈值态的大小同分异构体

概述了一类新的状态，我们将其命名为大小异构体。这样的状态是弱束缚的，并且具有奇特的结构(簇态，光晕/“皮肤”)。在短寿命激发态中测量原子核半径的方法的发展导致了新的态类的发现。原子核的大小由其核子(质子和中子)密度分布和质子电荷分布的半径决定，是原子核最基本和最重要的特征之一。核半径决定了原子核的基本性质，是强相互作用的基本特征的结果。到目前为止，已经确定了两组大小同分异构体:有光晕的激发态(\({}^{9}\) Be, \({}^{11}\) Be, \({}^{13}\) C, \({}^{13}\) N)和一些特定的α -团态(\({}^{11}\) B, \({}^{12}\) C, \({}^{13}\) C)。一些迹象表明可能存在比基态更紧的状态(见\({}^{13}\) C)。尺寸同分异构现象并不罕见，特别是如果我们考虑到基于某些这样的状态的旋转带。尺寸异构体的结构具有旋转晕、连续体晕、不同类型的准分子构型等新特征。在\({}^{12}\) C的霍伊尔态中观察到α粒子凝聚的一些基本迹象(凝聚的“幽灵”)，然而，我们不能谈论对这一雄心勃勃的理论的证实。考虑了在\(\alpha\) -排放阈值附近的\({}^{11}\) B、\({}^{13}\) C、\({}^{16}\) O、\({}^{20}\) Ne中与霍伊尔状态类似的情况。

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来源期刊

Physics of Atomic Nuclei 物理-物理：核物理

CiteScore

0.60

自引率

25.00%

发文量

审稿时长

3-6 weeks

期刊介绍： Physics of Atomic Nuclei is a journal that covers experimental and theoretical studies of nuclear physics: nuclear structure, spectra, and properties; radiation, fission, and nuclear reactions induced by photons, leptons, hadrons, and nuclei; fundamental interactions and symmetries; hadrons (with light, strange, charm, and bottom quarks); particle collisions at high and superhigh energies; gauge and unified quantum field theories, quark models, supersymmetry and supergravity, astrophysics and cosmology.