Jianbo Hu, Chengda Dai, Yuying Yu, Zijiang Liu, Ye Tan, Xianming Zhou, Hua Tan, Lingcang Cai, Qiang wu
The high-pressure melting curve of tantalum (Ta) has been the center of a
long-standing controversy. Sound velocities along the Hugoniot curve are
expected to help in understanding this issue. To that end, we employed a
direct-reverse impact technique and velocity interferometry to determine sound
velocities of Ta under shock compression in the 10-110 GPa pressure range. The
measured longitudinal sound velocities show an obvious kink at ~60 GPa as a
function of shock pressure, while the bulk sound velocities show no
discontinuity. Such observation could result from a structural transformation
associated with a negligible volume change or an electronic topological
transition.
View original:
http://arxiv.org/abs/1201.0427
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