Reshaping transmission spectrum of long-wavelength infrared-transmitting chalcogenide glass via doping of rare earth and/or transition metal ions

“…Chalcogenide glasses, especially those doped with certain elements (Ge, Cu, Ag, Sn, etc. ), show very significant and unique chemical and physical properties, primarily electrical and optical, which, even today, make these materials attractive for scientific research and different applications [1][2][3][4][5]. Opportunities for the application of Cu-doped chalcogenide glasses are wide-ranging due to the possibility of programmed variations of the important thermal, thermo-mechanical, optical, structural, and electronic properties of chalcogenide glasses, induced by Cu introduction [6][7][8][9][10][11].…”

Isoconversional Analysis of Thermally Stimulated Effects in Cu_x(As₂Se₃)_100-x Glasses

“…Chalcogenide glasses, especially those doped with certain elements (Ge, Cu, Ag, Sn, etc. ), show very significant and unique chemical and physical properties, primarily electrical and optical, which, even today, make these materials attractive for scientific research and different applications [1][2][3][4][5]. Opportunities for the application of Cu-doped chalcogenide glasses are wide-ranging due to the possibility of programmed variations of the important thermal, thermo-mechanical, optical, structural, and electronic properties of chalcogenide glasses, induced by Cu introduction [6][7][8][9][10][11].…”

Isoconversional Analysis of Thermally Stimulated Effects in Cu_x(As₂Se₃)_100-x Glasses

Structural evolutions of mixed-chalcogen Ge-Sb-S-Se glasses for use as infrared lenses

High refractive index (Dy) doped (GeTe)80(InTe)20 thin films for sub-THz and millimeter-wave applications