Low-lying dipole strength in the well-deformed nucleus Gd-156

Tamkas M.; Aciksoez E.; Isaak J.; Beck T.; Benouaret N.; Bhike M.; Boztosun I.; Durusoy A.; Gayer U.; Krishichayan; Loeher B.; Pietralla N.; Savran D.; Tornow W.; Werner V.; Zilges A.; Zweidinger M.

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Low-lying dipole strength in the well-deformed nucleus Gd-156

机译：低于粗核的低位偶极强度GD-156

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The low-lying dipole strength of the deformed nucleus Gd-156 was investigated in the energy region from 3.1 MeV to 6.2 MeV using the method of nuclear resonance fluorescence (NRF). The NRF experiments were performed at the Darmstadt High Intensity Photon Setup (DHIPS) at Technische Universitat Darmstadt using unpolarized continuous-energy bremsstrahlung and at the High-Intensity gamma-ray Source (HI gamma S) at Duke University using quasi-monoenergetic and linearly-polarized photon beams. The combination of both experiments allows to separate electric and magnetic contributions and to determine absolute transition strengths for individual excited states as well as averaged quantities over narrow excitation energy regions. The investigated energy regions cover the region of the scissors mode as well as the low-energy part of the Pygmy Dipole Resonance. This is the first experiment where both of these excitation modes as well as the region in between has been successfully studied in a deformed heavy nucleus using the NRF method. (C) 2019 Elsevier B.V. All rights reserved.

机译：使用核共振荧光（NRF）的方法，在从3.1mEV至6.2MeV的能量区域中研究了变形核GD-156的低位偶极强度。在Darmstadt高强度光子设置（Darmsche Universitat Darmstadt）在Darmstadt-Energy Bremsstrahlung和Duke大学的高强度Gamma射线源（Hi Gamma S）的高强度伽马射源（Hi Gamma S）上进行了NRF实验。使用Quasi-monoenergetic和线性 - 偏振光节束。两种实验的组合允许分离电气和磁性贡献，并确定各个激发态的绝对转变强度以及窄激励能量区域的平均量。调查的能量区域覆盖剪刀模式的区域以及侏儒偶极谐振的低能量部分。这是第一个实验，其中使用NRF方法在变形的重核中成功地研究了这些激发模式以及介于两者之间的区域。（c）2019 Elsevier B.v.保留所有权利。

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《Nuclear Physics, A: Journal Devoted to the Experimental Study of the Fundamental Constituents of Matter and Their Actions》 |2019年第2019期|共11页
作者
Tamkas M.; Aciksoez E.; Isaak J.; Beck T.; Benouaret N.; Bhike M.; Boztosun I.; Durusoy A.; Gayer U.; Krishichayan; Loeher B.; Pietralla N.; Savran D.; Tornow W.; Werner V.; Zilges A.; Zweidinger M.;
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作者单位

Yildiz Tech Univ Dept Phys TR-34220 Istanbul Turkey;

Horia Hulubei Natl Inst Phys &

Nucl Engn IFIN HH Extreme Light Infrastruct Nucl Phys 30 Reactorului Bucharest 077125 Romania;

GSI Helmholtzzentrum Schwerionenforsch GmbH Planckstr 1 D-64291 Darmstadt Germany;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

Duke Univ Dept Phys Durham NC 27708 USA;

Akdeniz Univ Dept Phys TR-07058 Antalya Turkey;

Yildiz Tech Univ Dept Phys TR-34220 Istanbul Turkey;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

Duke Univ Dept Phys Durham NC 27708 USA;

GSI Helmholtzzentrum Schwerionenforsch GmbH Planckstr 1 D-64291 Darmstadt Germany;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

GSI Helmholtzzentrum Schwerionenforsch GmbH Planckstr 1 D-64291 Darmstadt Germany;

Duke Univ Dept Phys Durham NC 27708 USA;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

Univ Cologne Inst Kernphys Zulpicher Str 77 D-50937 Cologne Germany;

Tech Univ Darmstadt Inst Kernphys Schlossgartenstr 9 D-64289 Darmstadt Germany;

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正文语种 eng
中图分类原子核物理学、高能物理学;
关键词
Nuclear resonance fluorescence; gamma-ray spectroscopy; Quasi-monochromatic photon source; Deformed nuclei; Dipole strength distribution; Pygmy dipole resonance;

机译：核共振荧光;γ射线光谱;准单色光子源;变形核;偶极强度分布;侏儒偶极谐振;

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专利

1. Low-lying dipole strength in the well-deformed nucleus Gd-156 [J] . Tamkas M., Aciksoez E., Isaak J., Nuclear Physics, A: Journal Devoted to the Experimental Study of the Fundamental Constituents of Matter and Their Actions . 2019,第期

机译：低于粗核的低位偶极强度GD-156
2. ΔK = 0 M1 Excitation Strength of the Well-Deformed Nucleus ~(164)Dy from K Mixing [J] . Beck T., Werner V, Pietralla N., Physical review letters . 2020,第9期

机译：ΔK= 0m1良好变形核的激发强度〜k混合的〜（164）Dy
3. Low-lying dipole strengths for probable p-wave one-neutron halos in the medium mass region [J] . Manju, Singh Jagjit, Shubhchintak, The European Physical Journal, A. Hadrons and Nuclei . 2019,第1期

机译：介质区域中可能的P波一晕晕的低位偶极强度
4. Search for Low-Lying Dipole Strength in the Neutron-Rich Nucleus 26Ne [C] . J. Gibelin, D. Beaumel, T. Motobayashi, International Symposium on Exotic Nuclear Systems . 2005

机译：在富含中子核26NE中寻找低洼的偶极强度
5. From surface loop coil to dipole antenna: Radiofrequency coil designs inspired by Ideal Current Patterns for high-sensitivity MRI at high magnetic field strength. [D] . Chen, Gang. 2017

机译：从表面环形线圈到偶极天线：受理想电流模式启发的射频线圈设计，可在高磁场强度下实现高灵敏度MRI。
6. Quantification of transition dipole strengths using 1D and 2D spectroscopy for the identification of molecular structures via exciton delocalization: Application to α-helices [O] . Maksim Grechko, Martin T. Zanni -1

机译：使用一维和二维光谱定量分析跃迁偶极强度以通过激子离域识别分子结构：应用于α螺旋
7. Low-lying dipole strengths for probable p-wave one-neutron halos in the medium mass region [O] . Jagjit Singh, R. Chatterjee 2019

机译：低位偶极强度在中等质量区域中可能的P波一凹子卤体
8. Distribution of Radiative Strength in GD-156, 157 and 158 Nuclei [R] . Kopecky, J., Uhl, M., Chrien, R. E. 1992

机译：GD-156,157和158核中辐射强度的分布

Low-lying dipole strength in the well-deformed nucleus Gd-156

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