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Marcel Mudrich

A compact design for velocity-map imaging of energetic electrons and ions

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Standard

A compact design for velocity-map imaging of energetic electrons and ions. / Schomas, Dominik; Rendler, Nicolas; Krull, Jakob; Richter, Robert; Mudrich, Marcel.

I: Journal of Chemical Physics, Bind 147, 2017, s. 013942.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Harvard

Schomas, D, Rendler, N, Krull, J, Richter, R & Mudrich, M 2017, 'A compact design for velocity-map imaging of energetic electrons and ions', Journal of Chemical Physics, bind 147, s. 013942. https://doi.org/10.1063/1.4984076

APA

Schomas, D., Rendler, N., Krull, J., Richter, R., & Mudrich, M. (2017). A compact design for velocity-map imaging of energetic electrons and ions. Journal of Chemical Physics, 147, 013942. https://doi.org/10.1063/1.4984076

CBE

Schomas D, Rendler N, Krull J, Richter R, Mudrich M. 2017. A compact design for velocity-map imaging of energetic electrons and ions. Journal of Chemical Physics. 147:013942. https://doi.org/10.1063/1.4984076

MLA

Schomas, Dominik o.a.. "A compact design for velocity-map imaging of energetic electrons and ions". Journal of Chemical Physics. 2017, 147. 013942. https://doi.org/10.1063/1.4984076

Vancouver

Schomas D, Rendler N, Krull J, Richter R, Mudrich M. A compact design for velocity-map imaging of energetic electrons and ions. Journal of Chemical Physics. 2017;147:013942. https://doi.org/10.1063/1.4984076

Author

Schomas, Dominik ; Rendler, Nicolas ; Krull, Jakob ; Richter, Robert ; Mudrich, Marcel. / A compact design for velocity-map imaging of energetic electrons and ions. I: Journal of Chemical Physics. 2017 ; Bind 147. s. 013942.

Bibtex

@article{ecf53a67b8344051975cbcc7e0c33967,
title = "A compact design for velocity-map imaging of energetic electrons and ions",
abstract = "We present a compact design for a velocity-map imaging spectrometer for energetic electrons and ions. The standard geometry by Eppink and Parker [Rev. Sci. Instrum. 68, 3477 (1997)] is augmented by just two extended electrodes so as to realize an additional einzel lens. In this way, for a maximum electrode voltage of 7 kV, we experimentally demonstrate imaging of electrons with energies up to 65 eV. Simulations show that energy acceptances ≲270 and ≲1200 eV with an energy resolution ΔE∕E≲5 % are achievable for electrode voltages ≤20 kV when using diameters of the position-sensitive detector of 42 and 78 mm, respectively.",
author = "Dominik Schomas and Nicolas Rendler and Jakob Krull and Robert Richter and Marcel Mudrich",
year = "2017",
doi = "10.1063/1.4984076",
language = "English",
volume = "147",
pages = "013942",
journal = "Journal of Chemical Physics",
issn = "0021-9606",
publisher = "AMER INST PHYSICS",

}

RIS

TY - JOUR

T1 - A compact design for velocity-map imaging of energetic electrons and ions

AU - Schomas, Dominik

AU - Rendler, Nicolas

AU - Krull, Jakob

AU - Richter, Robert

AU - Mudrich, Marcel

PY - 2017

Y1 - 2017

N2 - We present a compact design for a velocity-map imaging spectrometer for energetic electrons and ions. The standard geometry by Eppink and Parker [Rev. Sci. Instrum. 68, 3477 (1997)] is augmented by just two extended electrodes so as to realize an additional einzel lens. In this way, for a maximum electrode voltage of 7 kV, we experimentally demonstrate imaging of electrons with energies up to 65 eV. Simulations show that energy acceptances ≲270 and ≲1200 eV with an energy resolution ΔE∕E≲5 % are achievable for electrode voltages ≤20 kV when using diameters of the position-sensitive detector of 42 and 78 mm, respectively.

AB - We present a compact design for a velocity-map imaging spectrometer for energetic electrons and ions. The standard geometry by Eppink and Parker [Rev. Sci. Instrum. 68, 3477 (1997)] is augmented by just two extended electrodes so as to realize an additional einzel lens. In this way, for a maximum electrode voltage of 7 kV, we experimentally demonstrate imaging of electrons with energies up to 65 eV. Simulations show that energy acceptances ≲270 and ≲1200 eV with an energy resolution ΔE∕E≲5 % are achievable for electrode voltages ≤20 kV when using diameters of the position-sensitive detector of 42 and 78 mm, respectively.

U2 - 10.1063/1.4984076

DO - 10.1063/1.4984076

M3 - Journal article

C2 - 28688413

VL - 147

SP - 013942

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

SN - 0021-9606

ER -