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Main Authors: Ren, Ge, Ma, Chun-Wang, Cao, Xi-Guang, Ma, Yu-Gang
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.13862
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author Ren, Ge
Ma, Chun-Wang
Cao, Xi-Guang
Ma, Yu-Gang
author_facet Ren, Ge
Ma, Chun-Wang
Cao, Xi-Guang
Ma, Yu-Gang
contents The bubble nuclei are important components of exotic nuclear structures characterized by special depletions of central densities. Focusing on bubble structures of $^{36}$Ar, the characterizations of bubble nuclei were explored with the framework of the extended quantum molecular dynamics model. Three density distribution modes were uncovered for the first time, i.e. micro-bubble, bubble, and cluster resonances, which show unique spectral signature compared to the monopole resonance spectrum as the excitation intensity was increased in bubbles. Of pivotal importance is the revelation that the bubble mode's oscillation frequency closely resembles macroscopic bubble dynamics, building a connection between classical macroscopic phenomena and the quantum complexity of the nuclear structure. The discovery marks a crucial step forward in deciphering the relationship between classical and quantum domains within the enigmatic world of atomic nuclei.
format Preprint
id arxiv_https___arxiv_org_abs_2408_13862
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Bubble $^{36}$Ar and Its New Breathing Modes
Ren, Ge
Ma, Chun-Wang
Cao, Xi-Guang
Ma, Yu-Gang
Nuclear Theory
The bubble nuclei are important components of exotic nuclear structures characterized by special depletions of central densities. Focusing on bubble structures of $^{36}$Ar, the characterizations of bubble nuclei were explored with the framework of the extended quantum molecular dynamics model. Three density distribution modes were uncovered for the first time, i.e. micro-bubble, bubble, and cluster resonances, which show unique spectral signature compared to the monopole resonance spectrum as the excitation intensity was increased in bubbles. Of pivotal importance is the revelation that the bubble mode's oscillation frequency closely resembles macroscopic bubble dynamics, building a connection between classical macroscopic phenomena and the quantum complexity of the nuclear structure. The discovery marks a crucial step forward in deciphering the relationship between classical and quantum domains within the enigmatic world of atomic nuclei.
title Bubble $^{36}$Ar and Its New Breathing Modes
topic Nuclear Theory
url https://arxiv.org/abs/2408.13862