G4 Doctoral dissertation (monograph)
Excited states in the highly deformed proton emitter 131Eu (2023)


Tann, H. (2023). Excited states in the highly deformed proton emitter 131Eu [Doctoral dissertation]. University of Jyväskylä. JYU dissertations, 626. http://urn.fi/URN:ISBN:978-951-39-9526-3


JYU authors or editors


Publication details

All authors or editorsTann, Holly

eISBN978-951-39-9526-3

Journal or seriesJYU dissertations

eISSN2489-9003

Publication year2023

Number in series626

Number of pages in the book1 verkkoaineisto (99 sivua, 10 numeroimatonta sivua)

PublisherUniversity of Jyväskylä

Place of PublicationJyväskylä

Publication countryFinland

Publication languageEnglish

Persistent website addresshttp://urn.fi/URN:ISBN:978-951-39-9526-3

Publication open accessOpenly available

Publication channel open accessOpen Access channel


Abstract

The newly commissioned JUROGAM 3 γ-ray spectrometer was used in conjunction with the MARA recoil separator to establish excited states in the proton emitting nucleus 131Eu, which is predicted to possess one of the highest quadrupole deformations in the 130 ≤ A ≤ 140 region. By identifying the rotational band structures in this nucleus, deformation parameters can be established that provide crucial constraints on theoretical models of deformed proton emitters. Fine structure has previously been observed in the proton emission from 131Eu. The sensitivity of the fine structure to the wavefunctions of states in the parent and daughter nuclides generated significant theoretical interest in this nuclide allowing a 3/2+ spin parity assignment to be made for the ground state. The composition of the wavefunctions are highly sensitive to dynamic effects, therefore it would be particularly informative to study the excited states built upon the 3/2+ state and other low-lying Nilsson bandheads. Proton radioactivity from 131Eu has been remeasured with a proton energy of 952(5) keV for the ground-state decay to the ground state in the 130Sm daughter and a proton energy of 828(6) keV for the fine structure transition from the ground state in 131Eu to the 2+ excited state in the 130Sm daughter. The 2+ to 0+ transition in 130Sm was also measured directly for the first time with an energy of 125(1) keV. The 131Eu nucleus was produced with a cross section of 140(30) nb with a 23(5) % fine structure branching ratio. The half-life was measured to be 17.6(5) ms. In-beam data from this study was highly fruitful and through gamma-ray correlations it was possible to build rotational band(s). The obtained band(s) in this study cannot firmly be assigned, however comparison to the 141Ho structure suggests that the band is based on 7/2[523] Nilsson state. No clear evidence for existence of any sort of isomeric decay feeding the ground state could be identified.


Keywordsspectroscopynuclear physicsprotonsemission (physics)doctoral dissertations

Free keywordsnuclear structure; decay spectroscopy; proton emission; in-beam spectroscopy; neutron-deficient nuclei


Contributing organizations


Ministry reportingYes

Reporting Year2023


Last updated on 2024-10-03 at 17:46