Abstract
A single-crystal specimen of rutile (titania) was flashed repetitively, while increasing the electric field after each cycle. As expected, the flash onset temperature continued to drop modestly at higher fields. However, when the field was increased from 400 to 450 V cm–1, the flashed onset fell dramatically down to room temperature. We have investigated the electrical and optical properties of this room temperature flashed specimen (called SZ). The specimen was electronically conducting. Optical absorption spectroscopy revealed a narrow band of new energy levels that were generated just below the conduction band. The gap between the conduction band and this flash-induced energy level agreed with the peak in the electroluminescence spectrum. Optical second harmonic generation (SHG) is reported. The flash-on condition significantly lowered the SHG, which rebounded when the flash was turned off. This result suggests that the structure becomes more centrosymmetric in the state of flash, which may represent a disordered state of defects. The possibility of studying flash behavior at room temperature, without a furnace (as in SZ type specimens), opens a considerable simplification for in-situ characterization of flash behavior. For example, a possible relationship between memristor physics and the flash phenomenon can be studied.
| Original language | English |
|---|---|
| Pages (from-to) | 46-52 |
| Number of pages | 7 |
| Journal | Journal of the American Ceramic Society |
| Volume | 106 |
| Issue number | 1 |
| DOIs | |
| State | Published - Jan 2023 |
Funding
We are grateful to the Office of Naval Research for supporting this research under the grant no. N00014‐18‐1‐2270. We thank Dr. Antti Makinen for his guidance and interest in this project. Y.Y. and V.G. acknowledge support from the National Science Foundation Grant nos. DMR 14020620 and DMR 2011839.
Keywords
- flash sintering
- memristors
- room temperature
- rutile
- single crystals