Observation of radiative double electron capture for F9++N2

Radiative double electron capture (RDEC), occurring when two electrons are captured to a projectile ion with the simultaneous emission of a single photon, has been investigated. RDEC can be considered as the time inverse process of double photoionization. Strong evidence for RDEC is found in F9+ + N...

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Veröffentlicht in:	X-ray spectrometry 2020-01, Vol.49 (1), p.104-109
Hauptverfasser:	Kumara, Nuwan, La Mantia, David S., Buglione, Stephanie L., McCoy, Craig P., Taylor, Charles J., White, Jacob S., Kayani, Asghar, Tanis, John A.
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Sprache:	eng
Schlagworte:	Beta decay Collision avoidance Electron capture Electrons Emission analysis Photoionization Projectiles
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container_title	X-ray spectrometry
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creator	Kumara, Nuwan La Mantia, David S. Buglione, Stephanie L. McCoy, Craig P. Taylor, Charles J. White, Jacob S. Kayani, Asghar Tanis, John A.
description	Radiative double electron capture (RDEC), occurring when two electrons are captured to a projectile ion with the simultaneous emission of a single photon, has been investigated. RDEC can be considered as the time inverse process of double photoionization. Strong evidence for RDEC is found in F9+ + N2 collisions and additionally for one‐electron F8+ for which the probability for the process is expected to be considerably smaller. Preliminary values for the cross sections for RDEC have been determined. A significant advantage of the gas target is that multiple‐collision effects seen for a solid target are avoided due to the single‐collision conditions that prevail for gas targets.
doi_str_mv	10.1002/xrs.3063
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subjects	Beta decay Collision avoidance Electron capture Electrons Emission analysis Photoionization Projectiles
title	Observation of radiative double electron capture for F9++N2
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