Ab Initio Calculation of stressed Cesium Iodide lattices and resulting Surface Plasmon Resonance Peak shifts

Alkali halides like Cesium Iodide have received renewed attention as a material with potential application as detector coating due to the appearance of Surface Plasmon Resonance absorption peak in their UV-visible absorption spectrum. The formation of Surface Plasmon Resonance peak has been traced to the formation of Cesium metal clusters due to the aglomeration of color centers embedded in Cesium Iodide background. This paper, based on experimental observation that cubic Cesium Iodide experiences stress due to color centers forming in the neighborhood and take up tetragonal lattice structure, investigates the tetragonal Cesium Iodide's band structure and dielectric constant using ab initio calculations. Both, the band-gap and dielectric constant of Cesium Iodide, show a systematic variation with changing lattice constant. While the band-gap is seen to strongly depend on the lattice parameter `c', the dielectric constant's variation along `a' direction (${\rm 0.2~nm^{-1}}$) was found to be stronger than that along the `c' direction (${\rm -2.5~nm^{-1}}$). The calculated dielectric constants were used as input parameter for Gan model calculations of the extinction coefficient and evaluation of Surface Plasmon Resonance peak position (${\rm \lambda_{max}}$). A red-shift in ${\rm \lambda_{max}}$ was seen with increasing dielectric constant that appears with stress acting on Cesium Iodide's lattice.
Comment: Due to Editor in Chief's Prashant Kumta's allegation Materials Science and Engineering B Your paper is being rejected because, after further examination of this manuscript, I, the Editor-in-Chief, have determined that the information in this paper is published work (arXiv:1610.04890. The practice of submitting published work is not acceptable or ethical