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An improved reliability factor for quantitative low-energy electron diffraction

Materials Science 2026-05-12 v1 Instrumentation and Detectors

Abstract

Quantitative low-energy electron diffraction [LEED I(V)I(V) or LEED I(E)I(E), the evaluation of diffraction intensities II as a function of the electron energy] is a versatile technique for the study of surface structures. The technique is based on optimizing the agreement between experimental and calculated intensities. Today, the most commonly used measure of agreement is Pendry's RR factor RPR_\mathrm{P}. While RPR_\mathrm{P} has many advantages, it also has severe shortcomings, as it is a noisy target function for optimization and very sensitive to small offsets of the intensity. Furthermore, RP=0R_\mathrm{P} = 0, which is meant to imply perfect agreement between two I(E)I(E) curves can also be achieved by qualitatively very different curves. We present a modified RR factor RSR_\mathrm{S}, which can be used as a direct replacement for RPR_\mathrm{P}, but avoids these shortcomings. We also demonstrate that RSR_\mathrm{S} is as good as RPR_\mathrm{P} or better in steering the optimization to the correct result in the case of imperfections of the experimental data, while another common RR factor, RZJR_\mathrm{ZJ} (suggested by Zanazzi and Jona) is worse in this respect.

Keywords

Cite

@article{arxiv.2511.05448,
  title  = {An improved reliability factor for quantitative low-energy electron diffraction},
  author = {Alexander M. Imre and Lutz Hammer and Ulrike Diebold and Michele Riva and Michael Schmid},
  journal= {arXiv preprint arXiv:2511.05448},
  year   = {2026}
}
R2 v1 2026-07-01T07:26:33.140Z