A Comparative Investigation on the Structural Stability of the Single and Poly‐Crystalline Sodium Nitrate at Dynamic Shock Wave Loaded Conditions

Abstract: Exploration of the structural stability of the single and poly‐crystalline materials of solid‐state at high temperature and pressure is one of the basic research topics in the materials science branch. While the initial state of material undergoes change because of external factors, the functional properties of the material are usually significantly varied and hence, detailed investigations are highly required to better understand either change in properties or stability of materials with respect to their init… Show more

“…Shock-induced lattice disorders are responsible for the formation of the new peaks. 59,60 The peak at 103 cm −1 shifts toward higher wavenumbers following the application of 100, 200, 300, and 400 shock pulses because the shocks produce surface tension and surface contraction, resulting in lattice contractions. As a result, the peaks shift toward higher wavenumbers, inducing blueshift.…”

Acoustic shock wave-induced phase transition in indium selenide: tuning band gap energy for solar cell applications

“…Shock-induced lattice disorders are responsible for the formation of the new peaks. 59,60 The peak at 103 cm −1 shifts toward higher wavenumbers following the application of 100, 200, 300, and 400 shock pulses because the shocks produce surface tension and surface contraction, resulting in lattice contractions. As a result, the peaks shift toward higher wavenumbers, inducing blueshift.…”

Acoustic shock wave-induced phase transition in indium selenide: tuning band gap energy for solar cell applications

Acoustic shock wave-induced reversible phase transition (rhombohedral to hexagonal) of bismuth telluride

Assessment of acoustic shock wave resistance of SiO2 (α-cristobalite): A potential material for aerospace and defense industry applications