Gisela Boendgen scite author profile

The dynamics of the scanning tunneling microscope (STM)-induced desorption of hydrogen atoms from Si-(100)-(2 × 1):H (D) surfaces in the "above electronic threshold limit", which is believed to proceed via a short-lived σ f σ* resonance, is investigated theoretically. We use both time-dependent wave packet and density matrix methods and compare them to classical mechanics. Isotope effects in the desorption yields and desorbate translational energies, the role of coordinate-dependent electronic relaxation, and finally the dependence of the observables on the surface temperature T s are addressed. In agreement with experiment we find no significant dependence of the isotope effect in the desorption yield up to T s ≈ 300 K. However, for higher T s a substantial decrease of the ratio between H and D yield is predicted.

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Direct and indirect DIET and DIMET from semiconductor and metal surfaces: What can we learn from ‘toy models’?

Saalfrank¹,

Boendgen²,

Corriol³

et al. 2000

Faraday Disc.

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Gisela Boendgen

Photodesorption of NO from a metal surface: quantum dynamical implications of a two-mode model

STM-Induced Desorption of Hydrogen from a Silicon Surface: An Open-System Density Matrix Study

Direct and indirect DIET and DIMET from semiconductor and metal surfaces: What can we learn from ‘toy models’?

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