10.6084/m9.figshare.1012764.v1
Gao-Ren Wang
Gao-Ren
Wang
Ting Xie
Ting
Xie
Yin Huang
Yin
Huang
Shu-Lin Cong
Shu-Lin
Cong
(a) The variation of the quantity Δ with the coefficient <em>C</em><sub>4</sub>
IOP Publishing
2013
separation
coefficient C 4.
data
quantum defect theory
quantum reflection
model
Atomic Physics
Molecular Physics
2013-09-05 00:00:00
Figure
https://iop.figshare.com/articles/figure/_a_The_variation_of_the_quantity_with_the_coefficient_em_C_em_sub_4_sub_/1012764
<p><strong>Figure 3.</strong> (a) The variation of the quantity Δ with the coefficient <em>C</em><sub>4</sub>. (b) Square: experimental data taken from [<a href="http://iopscience.iop.org/0953-4075/46/18/185302/article#jpb472270bib07" target="_blank">7</a>]; solid line: theoretical fitting result. See the text for details.</p> <p><strong>Abstract</strong></p> <p>We investigate the quantum reflection governed by the Casimir–Polder potential which scales as −1/<em>r</em><sup>3</sup> at short separation and as −1/<em>r</em><sup>4</sup> at long separation. Using the available analytical solutions for the −1/<em>r</em><sup>4</sup> potential and quantum defect theory, we develop a three-parameter model for quantum reflection. The three parameters characterizing the potential are essentially constant near the threshold. The application scope of the model is examined. For a potential dominated by the −1/<em>r</em><sup>4</sup> behaviour, which is the case in many realistic atom–surface systems, our model gives accurate results over the energy range in which the quantum reflection is significant. Moreover, this parameterized model allows one to fit the experimental data efficiently.</p>