Anomalous K alpha sub 1,2 X-Ray Production in 1.6 MeV Kr--Al Collisions

It is well established that when heavy ions pass through matter, satellites to the normal K X-ray lines are observed. These satellite lines are due to the simultaneous removal of one or more L-shell electrons in addition to the K-electron vacancy created by the projectile. Proton excitation of Al re...

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Veröffentlicht in:	Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 1988-11, Vol.B40-B41 (1), p.121-123
Hauptverfasser:	Lincoln, B A, Deveney, E F, Smith, W W, Kessel, Q C
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Sprache:	eng
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container_title	Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms
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creator	Lincoln, B A Deveney, E F Smith, W W Kessel, Q C
description	It is well established that when heavy ions pass through matter, satellites to the normal K X-ray lines are observed. These satellite lines are due to the simultaneous removal of one or more L-shell electrons in addition to the K-electron vacancy created by the projectile. Proton excitation of Al results in the first K alpha satellite being approx 10% of the total K X-ray production, compared to excitation by helium ions for which this satellite line is the dominant feature. A previous investigation by Knudson et al. has shown that for excitation of Al by 5 MeV N ions the strongest satellite lines are from those states which have 2 or 3 L-electron vacancies present at the time the K vacancy is filled. For the case of 1.6 MeV Kr incident on Al nearly as many satellites (up to four L vacancies) are observed; however, the K alpha sub 1,2 line is again dominant. This suggests that either the L-shell vacancies are filled before the 2p--1s decay occurs or that the Kr ion often removes the K electron without creating any L vacancies. Spectra. 11 ref.--AA
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These satellite lines are due to the simultaneous removal of one or more L-shell electrons in addition to the K-electron vacancy created by the projectile. Proton excitation of Al results in the first K alpha satellite being approx 10% of the total K X-ray production, compared to excitation by helium ions for which this satellite line is the dominant feature. A previous investigation by Knudson et al. has shown that for excitation of Al by 5 MeV N ions the strongest satellite lines are from those states which have 2 or 3 L-electron vacancies present at the time the K vacancy is filled. For the case of 1.6 MeV Kr incident on Al nearly as many satellites (up to four L vacancies) are observed; however, the K alpha sub 1,2 line is again dominant. This suggests that either the L-shell vacancies are filled before the 2p--1s decay occurs or that the Kr ion often removes the K electron without creating any L vacancies. 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title	Anomalous K alpha sub 1,2 X-Ray Production in 1.6 MeV Kr--Al Collisions
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