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Argon incorporation in Si(100) by ion bombardment at 15–100 eV

1993; American Institute of Physics; Volume: 74; Issue: 12 Linguagem: Inglês

10.1063/1.355024

1520-8850

W. M. Lau, I. Bello, L. J. Huang, Xiaoping Feng, M. Vos, I. V. Mitchell,

Integrated Circuits and Semiconductor Failure Analysis

Argon incorporation in Si(100) by low energy ion bombardment has been studied by polar angle dependent x-ray photoelectron spectroscopy and Rutherford backscattering spectroscopy. The bombardment was performed at 15, 20, and 100 eV in an ultrahigh vacuum chamber where a mass-separated argon ion beam with an energy spread of less than 1 eV was directed to the target. Both the argon penetration depth and incorporation probability were found to increase with bombardment energy. With a fluence of 2×1017/cm2, most of the incorporated argon was located within 20 Å of the target surface for the 100 eV bombardment and within 10 Å for the 15 eV bombardment. In all cases, the argon depth distribution reached a maximum and then declined. At this fluence, the incorporation probabilities were 0.0015 and 0.0004 for the 100 and 15 eV bombardment, respectively. When the amount of incorporated argon was measured as a function of fluence, it increased with fluence at low fluences, reached a quasisaturation at about 1×1016/cm2, but became fluence dependent again above 1×1018/cm2. The retained argon was stable at room temperature but showed at least two stages of thermal desorption in the temperature range 25–500 °C.