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Multicomposition EPSR: toward transferable potentials to model chalcogenide glass structures (2016)
Journal Article
Towey, J. J., & Barney, E. R. (2016). Multicomposition EPSR: toward transferable potentials to model chalcogenide glass structures. Journal of Physical Chemistry B, 120(51), 13169-13183. https://doi.org/10.1021/acs.jpcb.6b08793

The structure of xAs40Se60–(1 – x)As40S60 glasses, where x = 1.000, 0.667, 0.500, 0.333, 0.250, and 0.000, is investigated using a combination of neutron and X-ray diffraction coupled with computational modeling using multicomposition empirical poten... Read More about Multicomposition EPSR: toward transferable potentials to model chalcogenide glass structures.

Numerical modeling of lathanide-ion doped fibre lasers operating within mid-infrared wavelength region (2016)
Conference Proceeding
Sójka, L., Furniss, D., Tang, Z., Sakr, H., Barney, E. R., Benson, T. M., …Fuhrberg, P. (2016). Numerical modeling of lathanide-ion doped fibre lasers operating within mid-infrared wavelength region.

We discuss the numerical modelling of lanthanide-ion doped chalcogenide glass fibre lasers for operation in the mid-infrared wavelength region. We extract the modelling parameters from emission and absorption measurements using Judd-Ofelt and McCumbe... Read More about Numerical modeling of lathanide-ion doped fibre lasers operating within mid-infrared wavelength region.

Dy3+-doped selenide chalcogenide glasses: influence of Dy3+ dopant-aditive and containment (2016)
Journal Article
Furniss, D., Tang, Z., Barney, E., Neate, N. C., Benson, T., & Seddon, A. (2016). Dy3+-doped selenide chalcogenide glasses: influence of Dy3+ dopant-aditive and containment. Journal of the American Ceramic Society, 99(7), 2283-2291. doi:10.1111/jace.14218

This work reports on process‐induced impurities in rare‐earth ion: Dy3+‐doped selenide chalcogenide glasses, which are significant materials for active photonic devices in the mid‐infrared region. In particular, the effect of contamination from t... Read More about Dy3+-doped selenide chalcogenide glasses: influence of Dy3+ dopant-aditive and containment.