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HK: Fachverband Physik der Hadronen und Kerne

HK 40: Structure and Dynamics of Nuclei X

HK 40.2: Vortrag

Donnerstag, 13. März 2025, 14:30–14:45, HS 2 Physik

Probing a sudden drop of collectivity at ^170,172W — •K. E. Ide¹, V. Werner¹, R. Abels², U. Ahmed¹, D. Bittner², T. Biesenbach², A. Blazhev², A. Esmaylzadeh², C. Fransen², J. Jolie², H. Kleis², C. -D. Lakenbrink², M. Ley², H. Mayr¹, M. Müllenmeister², C. M. Nickel¹, R. Novak², A. Pfeil², N. Pietralla¹, J. Roob², F. von Spee², T. Stetz¹, T. Sültenfuß², and R. Zidarova¹ — ¹IKP, TU Darmstadt — ²IKP, Uni Köln

Nuclear quadrupole collectivity is identified from enhanced E2 decay rates. The E2 decay strength of a state is inversely proportional to its lifetime. A sudden increase of the E2 strength of the 2₁⁺→0₁⁺ transition from N=96 (¹⁷⁰W) to N=98 (¹⁷²W) in the W isotopic chain is unexpected compared to the neighboring Hf isotopic chain. This discrepancy was previously investigated by lifetime measurements of yrast states of ¹⁷⁰W [1]. Therefore, in this work we investigate yrast B(E2) values in ¹⁷²W to learn about the structural evolution of the yrast band in comparison to ¹⁷⁰W. The experiment was performed at the Cologne 10 MV FN-tandem accelerator facility and used the new CATHEDRAL spectrometer and a plunger device. The fast-timing method and the recoil distance Doppler-shift (RDDS) method are used complementary to determine the lifetimes of yrast states. First results will be presented and discussed together with the previous results on ¹⁷⁰W and will be compared to the confined β-soft (CBS) rotor model.

[1] K. E. Ide et al., LNL report 2019 (2020).

*Supported by the BMBF under Grant No. 05P21RDCI2 and by DFG (GRK 2128, AccelencE).

Keywords: 172W; Cologne CATHEDRAL spectrometer; Cologne plunger device; Fast timing; RDDS