SrTiO3 heat capacity, melting point, densitySemiconductorsTernary Compounds, Organic SemiconductorsSummary This document is part of Subvolume E 'Ternary Compounds, Organic Semiconductors' of Volume 41 'Semiconductors' of Landolt-Brnstein - Group III Condensed Matter....
An experimental realization of a system where electrical dipoles form on a lattice of a Mott insulator at this point is limited to molecular-based systems3,5,6. However, exotic multiferroicity7,9 which can result from an interplay of a quantum paraelectric and a spin liquid is of interest to...
Thanks to space–power equivalence in the heat equation, scanning the heating point along the cantilever directly reveals the temperature profile. Finally, frequency shift measurement can be used to infer the temperature field with a few percent precision. 展开 ...
Each spectrum is seen as a contribution of two processes—a 'one-phonon' disordered process and a relaxation mode. The relaxation time associated with this mode shows a linear decrease with increasing temperature, going to zero as the melting point is approached....
Considerable reduction of the melting point (down to 80–90 °C) for both compounds I and II, as compared to known volatile complexes, is achieved. By means of the developed precursors, epitaxial BST films (x = 0.5) are grown on SrTiO3 substrates by using the modified MOCVD ...
From the SEM, EDX, and RT analyses, it was found that the film having 8 wt% PbO2 produces a film with the highest superconducting transition temperature comparable to that of a YBCO sample partially melted at peritectic point. Moreover, it was observed that addition of PbO2 enhances matter...
From the SEM, EDX, and RT analyses, it was found that the film having 8 wt% PbO2 produces a film with the highest superconducting transition temperature comparable to that of a YBCO sample partially melted at peritectic point. Moreover, it was observed that addition of PbO2 enhances matter...
Considerable reduction of the melting point (down to 80–90 °C) for both compounds I and II, as compared to known volatile complexes, is achieved. By means of the developed precursors, epitaxial BST films (x = 0.5) are grown on SrTiO3 substrates by using the modified MOCVD ...
Therefore, the temperature of the cceennttrraall ppooiinntt iinn tthhee tthheerrmmaalleenneerrggyyssttoorraaggeeuunniittwwhheennRRLL = 0.5 rose more signiffiicantlyy, reaching equilibrium temperatuurree at about 750 s, while the temperature of the central point in the thermal energy storage ...