Enhanced resonant nonlinear absorption and optical limiting in Er3+ ions doped multicomponent tellurite glasses
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Enhanced resonant nonlinear absorption and optical limiting in Er3+ ions doped multicomponent tellurite glasses. / Sajna, M. S.; Perumbilavil, Sreekanth; Prakashan, V. P.; Sanu, M. S.; Joseph, Cyriac; Biju, P. R.; Unnikrishnan, N. V.
julkaisussa: Materials Research Bulletin, Vuosikerta 104, 01.08.2018, s. 227-235.Tutkimustuotos › › vertaisarvioitu
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T1 - Enhanced resonant nonlinear absorption and optical limiting in Er3+ ions doped multicomponent tellurite glasses
AU - Sajna, M. S.
AU - Perumbilavil, Sreekanth
AU - Prakashan, V. P.
AU - Sanu, M. S.
AU - Joseph, Cyriac
AU - Biju, P. R.
AU - Unnikrishnan, N. V.
PY - 2018/8/1
Y1 - 2018/8/1
N2 - Nonlinear optical properties of multicomponent tellurite glasses doped with Er3+ ions were investigated by open aperture Z-scan measurements. Compositional and linear optical properties of the glasses were examined by the energy dispersive X-ray spectrum and UV–vis–NIR absorption spectrum analysis respectively. The mechanism behind the optical nonlinearity and optical limiting efficiency was successfully explained by evaluating the physical properties such as density, refractive index and polarizability of the glasses. The nonlinear properties critically depend on the polarizability, which is found to increase with the addition of Er3+ ions by the creation of non-bridging oxygen ions. By the systematic addition of Er3+ ions, we have dictated the physical properties and thus tuned the optical limiting efficiency of the glasses. This makes the Er3+-doped multicomponent tellurite glasses flexible tunable optical limiters for potential device applications.
AB - Nonlinear optical properties of multicomponent tellurite glasses doped with Er3+ ions were investigated by open aperture Z-scan measurements. Compositional and linear optical properties of the glasses were examined by the energy dispersive X-ray spectrum and UV–vis–NIR absorption spectrum analysis respectively. The mechanism behind the optical nonlinearity and optical limiting efficiency was successfully explained by evaluating the physical properties such as density, refractive index and polarizability of the glasses. The nonlinear properties critically depend on the polarizability, which is found to increase with the addition of Er3+ ions by the creation of non-bridging oxygen ions. By the systematic addition of Er3+ ions, we have dictated the physical properties and thus tuned the optical limiting efficiency of the glasses. This makes the Er3+-doped multicomponent tellurite glasses flexible tunable optical limiters for potential device applications.
KW - Multiphoton absorption
KW - Optical limiting
KW - Optical nonlinearity
KW - Tellurite glasses
KW - Z-scan technique
U2 - 10.1016/j.materresbull.2018.04.026
DO - 10.1016/j.materresbull.2018.04.026
M3 - Article
VL - 104
SP - 227
EP - 235
JO - Materials Research Bulletin
JF - Materials Research Bulletin
SN - 0025-5408
ER -