1972
DOI: 10.1103/physrevlett.29.898
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Evidence for Radiative Electron Capture by Fast, Highly Stripped Heavy Ions

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Cited by 150 publications
(49 citation statements)
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“…Raisbeck and Yiou (1971) noted that REC was needed to explain total electron capture cross sections for -300-MeV protons incident on low-Z target atoms. The REC photon was observed at nonrelativistic velocities by Schnopper et al (1972), Kienle et al (1973), and others (e.g. Spindler et al 1979), and at relativistic velocities by Anholt et al (1984a).…”
Section: A Radiative Electron Capturementioning
confidence: 79%
“…Raisbeck and Yiou (1971) noted that REC was needed to explain total electron capture cross sections for -300-MeV protons incident on low-Z target atoms. The REC photon was observed at nonrelativistic velocities by Schnopper et al (1972), Kienle et al (1973), and others (e.g. Spindler et al 1979), and at relativistic velocities by Anholt et al (1984a).…”
Section: A Radiative Electron Capturementioning
confidence: 79%
“…The magnitudes of the MO x-ray anisotropies increase strongly with increasing beam energy, as observed in other collisions I-8,23]. The sharp increase in the anisotropy at low x-ray energies is due to the onset of the radiative-electron capture (REC) tail of C1 [24]. Since the REC radiation intensity varies as sin 20, the rise would be present even if the correct Doppler correction for REC (v=0) were applied [25].…”
Section: I(30 ~ E X)mentioning
confidence: 87%
“…(an improvement of over two orders of magnitude over the y-ray method). The principle of the method is well founded [46,47], and it will be interesting to see some results based on this method. Thin and gaseous targets are the obvious areas where this technique would be most effective.…”
Section: New Techniquesmentioning
confidence: 99%