Long-lived, pulse-induced absorption in LiNb1−xTaxO3 solid solutions: the case of three intrinsic defect sites for electron localization with strong coupling

10.26249/FK2/NBRSHM Dömer, NiklasKoelmann, JulianHesselink, MiraHehemann, TobiasPfannstiel, AntonSauerwein, FelixVittadello, LauraGanschow, SteffenImlau, Mirco Long-lived, pulse-induced absorption in LiNb1−xTaxO3 solid solutions: the case of three intrinsic defect sites for electron localization with strong coupling osnaData 2024 doi:10.26249/FK2/NBRSHM/TMITI2doi:10.26249/FK2/NBRSHM/2P1MHPdoi:10.26249/FK2/NBRSHM/U1IXKBdoi:10.26249/FK2/NBRSHM/WFLJQ4doi:10.26249/FK2/NBRSHM/RVP2RQdoi:10.26249/FK2/NBRSHM/9FMYVDdoi:10.26249/FK2/NBRSHM/Z2C3LLdoi:10.26249/FK2/NBRSHM/WLKNPKdoi:10.26249/FK2/NBRSHM/QWU8S1doi:10.26249/FK2/NBRSHM/OFXZ5Qdoi:10.26249/FK2/NBRSHM/HV6HVSdoi:10.26249/FK2/NBRSHM/SR0CJCdoi:10.26249/FK2/NBRSHM/R1PDHCdoi:10.26249/FK2/NBRSHM/AQ1KLFdoi:10.26249/FK2/NBRSHM/O50XSVdoi:10.26249/FK2/NBRSHM/NNXS2Xdoi:10.26249/FK2/NBRSHM/MPV4UGdoi:10.26249/FK2/NBRSHM/YM2SS0doi:10.26249/FK2/NBRSHM/IZ2R5Ddoi:10.26249/FK2/NBRSHM/D5VVI3doi:10.26249/FK2/NBRSHM/EWKKUDdoi:10.26249/FK2/NBRSHM/WJZI8Wdoi:10.26249/FK2/NBRSHM/XILWZRdoi:10.26249/FK2/NBRSHM/HA0XFYdoi:10.26249/FK2/NBRSHM/1CYLYDdoi:10.26249/FK2/NBRSHM/QV204Ldoi:10.26249/FK2/NBRSHM/TNLMRHdoi:10.26249/FK2/NBRSHM/122BV6doi:10.26249/FK2/NBRSHM/JHE7IEdoi:10.26249/FK2/NBRSHM/XESWOZdoi:10.26249/FK2/NBRSHM/OUMUXDdoi:10.26249/FK2/NBRSHM/ZVUTPRdoi:10.26249/FK2/NBRSHM/LKX0RJdoi:10.26249/FK2/NBRSHM/VWIVNZdoi:10.26249/FK2/NBRSHM/VCGXAMdoi:10.26249/FK2/NBRSHM/QEJJA7doi:10.26249/FK2/NBRSHM/KGJM6Vdoi:10.26249/FK2/NBRSHM/AXJY3Ldoi:10.26249/FK2/NBRSHM/YAY4S1doi:10.26249/FK2/NBRSHM/SXYSELdoi:10.26249/FK2/NBRSHM/HINGD4 Femto-/nanosecond pulse-induced, red and near-infrared absorption is studied in LiNb1-xTaxO3 (LNT) solid solutions with the goal to probe the intrinsic defect structure via the formation, transport and recombination of optically generated small bound electron polarons with strong coupling to the lattice. As a result, long-lived transients are uncovered for LNT which exceed lifetimes of LN and LT by a factor of up to 100 over the entire range of investigated compositions. At the same time, the starting amplitude varies in the range of αli0 ≈ 10 − 100 m−1 as a function of x and exceed the ones of LN and LT by a factor of up to ten. The results are interpreted in the model of three-dimensional small polaron hopping transport considering the simultaneous presence of three different types of small bound polarons, in particular of small electron Nb Li4+ and Ta Li4+ antisite polarons, and of small electron Ta V4+ interstitial polarons. We conclude that the differences between LNT, LN, and LT may point to model systems that consist of one (LN), two (LT) and three (LNT) intrinsic defect centers for electron localization. Imlau, Mirco