Agradecimentos: The authors thank S. Rauwerdink and A. Tahraoui for the fabrication of the FEUDT transducers and M. Tanabe for the technical support during the spectroscopy measurements. The authors gratefully acknowledge the financial supports from the Sao Paulo Research Foundation (FAPESP) (grants 2021/06803-4, 2022/03323-4, 2023/00191-2, 2021/08111-2) and the National Council for Scientific and Technological Development (CNPq) (grants 161487/2021-1, 306201/2022-4, 304807/2022-2) Ver menos

Abstract: Accurate local temperature readout in integrated nanoscaled devices driven by high-frequency surface acoustic waves (SAWs) has a strong technological interest. The optical response of lanthanide (Ln)-doped NaLnF(4) core@multishell nanoparticles inserted into SAW delay lines is reported. The recombination dynamics between the( 2)H(11/2) and S-4(3/2) to the I-4(15/2) states of Er3+ is probed under SAWs modulation at 5, 225, and 290 K. It is shown that the spectral weight of the upconverted individual Stark levels of the S-4(3/2) band changes with the SAW and that their recombination lifetimes decrease as the SAW power is increased. By monitoring the luminescence intensity ratio (LIR), it is shown that such dynamics is consistent with a temperature increase and a carrier repopulation process across the S-4(3/2) Stark levels induced by Joule heating, which can reach up to 47 K at cryogenic temperatures. These effects, however, can be strongly suppressed by reducing the SAW duty cycle during the optical measurements. The results demonstrate that heating of nanoscopic systems integrated into SAW devices can be quite pronounced and that, since they do not interact with the SAW strain or piezoelectric field, these NaLnF(4) nanoparticles can be effectively employed as nanoscale in-situ and in-operando thermometers in such kind of application Ver menos