Investigation of nanoceramics based on aluminum and zirconium oxides using the heat pulse method

“…3) Using also dependence f ω (q 2 l gb )/(1 − f ω ), which not given here (see, e.g. [16][17][18]21]). …”

New results on characterization of highly transparent C-modification Lu₂O₃ nanocrystalline ceramics: room-temperature tunable CW laser action of Yb³⁺ ions under LD-pumping and the propagation kinetics of non-equilibrium acoustic phonons

“…3) Using also dependence f ω (q 2 l gb )/(1 − f ω ), which not given here (see, e.g. [16][17][18]21]). …”

New results on characterization of highly transparent C-modification Lu₂O₃ nanocrystalline ceramics: room-temperature tunable CW laser action of Yb³⁺ ions under LD-pumping and the propagation kinetics of non-equilibrium acoustic phonons

“…It is shown that the results obtained in these limiting models qualitatively agree and in both cases for certain values of the problem parameters a forbidden bandgap was obtained in the phonon spectrum and the approximate analytical expressions were obtained for its boundaries in the elastic limit. The results given in [5] made it possible to relate a "roll-off" in the grain-size function of the diffusion constant of nanoceramics phonons, which was discovered in the experiments with the propagation of weakly inhomogeneous helium phonons [6,7], with the presence of a gap in the phonon spectrum of these materials. In paper [5] the calculations were performed in a completely degenerate scalar model of a crystal, hence, the question of the influence of mixing vibration modes during scattering was not discussed.…”

Phonon spectrum of compact ceramics: two‐dimensional ordered model

“…This approach is based on the analysis of the weakly nonequilibrium phonon (NP) transport in the specimen studied at helium temperatures when the NP wavelength λ is less than the mean grain size R but comparable to the intergranular interface thickness. The method and the model used as well as the peculiarities of the data processing are detailed in [17,18]. In this work we analyzed the propagation of the flow of weakly nonequilibrium thermal phonons generated by pulse heating of a metal (gold) film deposited on a face of the specimen under study.…”

“…The experimental technique and the analysis of propagation of nonequilibrium phonons in ceramic materials were reported in [17]. In this study, the samples were plane-parallel polished plates with a thickness (L) 0.1-1.0 mm and an area of about 0.5 cm 2 .…”

Structure and Composition of Ba-W-Ti-O Ceramics Interface Regions Formed at Ultrasonic Vibration