Resolving Experimental Raman Spectra of TiO₂:GeO₂ via Atomistic Modeling and Simulations

TiO₂:GeO₂ thin film is the most promising candidate high-index mirror coating material for the LIGO gravitational wave detector. To gain a more in-depth understanding of structural changes/transformations during annealing processes, we investigated both experimental and calculated Raman spectra of TiO₂:GeO₂. Our calculated Raman spectra exhibited a remarkable agreement with the experimental Raman spectra of TiO₂:GeO₂ for as-deposited thin films, spanning a wide range of Ti concentrations, from 0% to 100%. This alignment reinforces the fidelity of our computational model compared with experimental observations. Subsequently, we focused our attention on the 44% TiO₂:GeO₂ composition. The evolution in the experimental Raman spectra on annealing these films at various doping concentrations was carefully scrutinized, shedding light on the underlying structural transformation.