Double Core-Hole Generation in O_2 Molecules Using an X-Ray Free-Electron Laser: Molecular-Frame Photoelectron Angular Distributions

Kastirke Gregor; Schoeffler Markus S.; Weller Miriam; Rist Jonas; Boll Rebecca; Anders Nils; Baumann Thomas M.; Eckart Sebastian; Erk Benjamin; De Fanis Alberto; Fehre Kilian; Gatton Averell; Grundmann Sven; Grychtol Patrik; Hartung Alexander; Hofmann Max; Ilchen Markus; Janke Christian; Kircher Max; Kunitski Maksim; Li Xiang; Mazza Tommaso; Melzer Niklas; Montano Jacobo; Music Valerija; Nalin Giammarco; Ovcharenko Yevheniy; Pier Andreas; Rennhack Nils; Rivas Daniel E.; Doerner Reinhard; Rolles Daniel; Rudenko Artem; Schmidt Philipp; Siebert Juliane; Strenger Nico; Trabert Daniel; Vela-Perez Isabel; Wagner Rene; Weber Thorsten; Williams Joshua B.; Ziolkowski Pawel; Czasch Achim; Ueda Kiyoshi; Trinter Florian; Meyer Michael; Demekhin Philipp V; Jahnke Till

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Double Core-Hole Generation in O_2 Molecules Using an X-Ray Free-Electron Laser: Molecular-Frame Photoelectron Angular Distributions

机译：O_2分子中的双芯孔产生使用X射线自由电子激光器：分子框架光电子角分布

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We report on a multiparticle coincidence experiment performed at the European X-ray Free-Electron Laser at the Small Quantum Systems instrument using a COLTRIMS reaction microscope. By measuring two ions and two electrons in coincidence, we investigate double core-hole generation in O-2 molecules in the gas phase. Single-site and two-site double core holes have been identified and their molecular-frame electron angular distributions have been obtained for a breakup of the oxygen molecule into two doubly charged ions. The measured distributions are compared to results of calculations performed within the frozen- and relaxed-core Hartree-Fock approximations.

机译：我们通过Coltrims反应显微镜报告在小型量子系统仪器处在欧洲X射线自由电子激光器在欧洲X射线自由电子激光器中进行的多颗巧合实验。通过测量两种离子和两种电子，我们研究了气相中O-2分子中的双核心孔产生。已经鉴定了单站点和双部位双核心孔，并且已经获得了其分子框架电子角分布用于将氧分子分解成两个双电荷的离子。将测量的分布与在冷冻和松弛核心Hartree-Fock近似值内进行的计算结果进行比较。

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来源
《Physical review letters》 |2020年第16期|163201.1-163201.6|共6页
作者
Kastirke Gregor; Schoeffler Markus S.; Weller Miriam; Rist Jonas; Boll Rebecca; Anders Nils; Baumann Thomas M.; Eckart Sebastian; Erk Benjamin; De Fanis Alberto; Fehre Kilian; Gatton Averell; Grundmann Sven; Grychtol Patrik; Hartung Alexander; Hofmann Max; Ilchen Markus; Janke Christian; Kircher Max; Kunitski Maksim; Li Xiang; Mazza Tommaso; Melzer Niklas; Montano Jacobo; Music Valerija; Nalin Giammarco; Ovcharenko Yevheniy; Pier Andreas; Rennhack Nils; Rivas Daniel E.; Doerner Reinhard; Rolles Daniel; Rudenko Artem; Schmidt Philipp; Siebert Juliane; Strenger Nico; Trabert Daniel; Vela-Perez Isabel; Wagner Rene; Weber Thorsten; Williams Joshua B.; Ziolkowski Pawel; Czasch Achim; Ueda Kiyoshi; Trinter Florian; Meyer Michael; Demekhin Philipp V; Jahnke Till;
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Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

DESY Notkestr 85 D-22607 Hamburg Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

SLAC Natl Accelerator Lab Menlo Pk CA 94025 USA;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany|Univ Kassel Inst Phys Heinrich Plett Str 40 D-34132 Kassel Germany|Univ Kassel CINSaT Heinrich Plett Str 40 D-34132 Kassel Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Kansas State Univ Dept Phys JR Macdonald Lab Manhattan KS 66506 USA;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany|Univ Kassel Inst Phys Heinrich Plett Str 40 D-34132 Kassel Germany|Univ Kassel CINSaT Heinrich Plett Str 40 D-34132 Kassel Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Kansas State Univ Dept Phys JR Macdonald Lab Manhattan KS 66506 USA;

Kansas State Univ Dept Phys JR Macdonald Lab Manhattan KS 66506 USA;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany|Univ Kassel Inst Phys Heinrich Plett Str 40 D-34132 Kassel Germany|Univ Kassel CINSaT Heinrich Plett Str 40 D-34132 Kassel Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Lawrence Berkeley Natl Lab Chem Sci Div Berkeley CA 94720 USA;

Univ Nevada Dept Phys Reno NV 89557 USA;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

Tohoku Univ Inst Multidisciplinary Res Adv Mat Sendai Miyagi 9808577 Japan;

DESY Notkestr 85 D-22607 Hamburg Germany|Max Planck Gesell Fritz Haber Inst Mol Phys Faradayweg 4-6 D-14195 Berlin Germany;

European XFEL GmbH Holzkoppel 4 D-22869 Schenefeld Germany;

Univ Kassel Inst Phys Heinrich Plett Str 40 D-34132 Kassel Germany|Univ Kassel CINSaT Heinrich Plett Str 40 D-34132 Kassel Germany;

Goethe Univ Inst Kernphys Max von Laue Str 1 D-60438 Frankfurt Germany;

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7. Circular dichroism in molecular-frame photoelectron angular distributions in the dissociative photoionization of H2 and D2 molecules [O] . Pérez-Torres, J. F., Sanz-Vicario, J. L., Veyrinas, K., 2014

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Double Core-Hole Generation in O_2 Molecules Using an X-Ray Free-Electron Laser: Molecular-Frame Photoelectron Angular Distributions

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