A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe3+ above xenon-4d ionization threshold

I. Ismail; M. A. Khalal; M. Huttula; K. Jänkälä; J. M. Bizau; D. Cubaynes; Y. Hikosaka; K. Bučar; M. Žitnik; L. Andric; P. Lablanquie; J. Palaudoux; F. Penent

doi:10.1039/d2cp02930h

A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe³⁺ above xenon-4d ionization threshold

I. Ismail^*, M. A. Khalal, M. Huttula, K. Jänkälä, J. M. Bizau, D. Cubaynes, Y. Hikosaka, K. Bučar, M. Žitnik, L. Andric, P. Lablanquie, J. Palaudoux, F. Penent^*

^*この論文の責任著者

教養教育学系

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

7 被引用数 (Scopus)

抄録

Single-photon multiple photoionization results from electron correlations that make this process possible beyond the independent electron approximation. To study this phenomenon experimentally, the detection in coincidence of all emitted electrons is the most direct approach. It provides the relative contribution of all possible multiple ionization processes, the energy distribution between electrons that can reveal simultaneous or sequential mechanisms, and, if possible, the angular correlations between electrons. In the present work, we present a new magnet design of our magnetic bottle electron spectrometer that allows the detection of multiply charged Xeⁿ⁺ ions in coincidence with n electrons. This new coincidence detection allows more efficient extraction of minor channels that are otherwise masked by random coincidences. The proof of principle is provided for xenon triple ionization.

本文言語	英語
ページ（範囲）	20219-20227
ページ数	9
ジャーナル	Physical Chemistry Chemical Physics
巻	24
号	34
DOI	https://doi.org/10.1039/d2cp02930h
出版ステータス	出版済み - 2022/08/12

ASJC Scopus 主題領域

物理学および天文学一般
物理化学および理論化学

文献へのアクセス

10.1039/d2cp02930h

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引用スタイル

Ismail, I., Khalal, M. A., Huttula, M., Jänkälä, K., Bizau, J. M., Cubaynes, D., Hikosaka, Y., Bučar, K., Žitnik, M., Andric, L., Lablanquie, P., Palaudoux, J., & Penent, F. (2022). A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe³⁺ above xenon-4d ionization threshold. Physical Chemistry Chemical Physics, 24(34), 20219-20227. https://doi.org/10.1039/d2cp02930h

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title = "A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe3+ above xenon-4d ionization threshold",

abstract = "Single-photon multiple photoionization results from electron correlations that make this process possible beyond the independent electron approximation. To study this phenomenon experimentally, the detection in coincidence of all emitted electrons is the most direct approach. It provides the relative contribution of all possible multiple ionization processes, the energy distribution between electrons that can reveal simultaneous or sequential mechanisms, and, if possible, the angular correlations between electrons. In the present work, we present a new magnet design of our magnetic bottle electron spectrometer that allows the detection of multiply charged Xen+ ions in coincidence with n electrons. This new coincidence detection allows more efficient extraction of minor channels that are otherwise masked by random coincidences. The proof of principle is provided for xenon triple ionization.",

author = "I. Ismail and Khalal, {M. A.} and M. Huttula and K. J{\"a}nk{\"a}l{\"a} and Bizau, {J. M.} and D. Cubaynes and Y. Hikosaka and K. Bu{\v c}ar and M. {\v Z}itnik and L. Andric and P. Lablanquie and J. Palaudoux and F. Penent",

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year = "2022",

month = aug,

day = "12",

doi = "10.1039/d2cp02930h",

language = "英語",

volume = "24",

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Ismail, I, Khalal, MA, Huttula, M, Jänkälä, K, Bizau, JM, Cubaynes, D, Hikosaka, Y, Bučar, K, Žitnik, M, Andric, L, Lablanquie, P, Palaudoux, J & Penent, F 2022, 'A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe³⁺ above xenon-4d ionization threshold', Physical Chemistry Chemical Physics, vol. 24, no. 34, pp. 20219-20227. https://doi.org/10.1039/d2cp02930h

A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons: decay pathways to Xe³⁺ above xenon-4d ionization threshold. / Ismail, I.; Khalal, M. A.; Huttula, M. その他.
In: Physical Chemistry Chemical Physics, Vol. 24, No. 34, 12.08.2022, p. 20219-20227.

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

TY - JOUR

T1 - A modified magnetic bottle electron spectrometer for the detection of multiply charged ions in coincidence with all correlated electrons

T2 - decay pathways to Xe3+ above xenon-4d ionization threshold

AU - Ismail, I.

AU - Khalal, M. A.

AU - Huttula, M.

AU - Jänkälä, K.

AU - Bizau, J. M.

AU - Cubaynes, D.

AU - Hikosaka, Y.

AU - Bučar, K.

AU - Žitnik, M.

AU - Andric, L.

AU - Lablanquie, P.

AU - Palaudoux, J.

AU - Penent, F.

PY - 2022/8/12

Y1 - 2022/8/12

N2 - Single-photon multiple photoionization results from electron correlations that make this process possible beyond the independent electron approximation. To study this phenomenon experimentally, the detection in coincidence of all emitted electrons is the most direct approach. It provides the relative contribution of all possible multiple ionization processes, the energy distribution between electrons that can reveal simultaneous or sequential mechanisms, and, if possible, the angular correlations between electrons. In the present work, we present a new magnet design of our magnetic bottle electron spectrometer that allows the detection of multiply charged Xen+ ions in coincidence with n electrons. This new coincidence detection allows more efficient extraction of minor channels that are otherwise masked by random coincidences. The proof of principle is provided for xenon triple ionization.

AB - Single-photon multiple photoionization results from electron correlations that make this process possible beyond the independent electron approximation. To study this phenomenon experimentally, the detection in coincidence of all emitted electrons is the most direct approach. It provides the relative contribution of all possible multiple ionization processes, the energy distribution between electrons that can reveal simultaneous or sequential mechanisms, and, if possible, the angular correlations between electrons. In the present work, we present a new magnet design of our magnetic bottle electron spectrometer that allows the detection of multiply charged Xen+ ions in coincidence with n electrons. This new coincidence detection allows more efficient extraction of minor channels that are otherwise masked by random coincidences. The proof of principle is provided for xenon triple ionization.

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