Theoretical Division, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA.
Phys Rev Lett. 2010 Jun 25;104(25):255702. doi: 10.1103/PhysRevLett.104.255702. Epub 2010 Jun 21.
Phase diagrams of refractory metals remain essentially unknown. Moreover, there is an ongoing controversy over the high-pressure melting temperatures of these metals: results of diamond anvil cell (DAC) and shock wave experiments differ by at least a factor of 2. From an extensive ab initio study on tantalum we discovered that the body-centered cubic phase, its physical phase at ambient conditions, transforms to another solid phase, possibly hexagonal omega phase, at high temperature. Hence the sample motion observed in DAC experiments is very likely not due to melting but internal stresses accompanying a solid-solid transformation, and thermal stresses associated with laser heating.
难熔金属的相图基本上仍不为人知。此外,这些金属的高压熔化温度还存在争议:金刚石压腔 (DAC) 和冲击波实验的结果至少相差 2 倍。通过对钽进行的广泛的第一性原理研究,我们发现,体心立方相,在环境条件下的物理相,在高温下转变为另一种固相,可能是六方ω相。因此,在 DAC 实验中观察到的样品运动很可能不是由于熔化,而是伴随固-固相变的内应力,以及与激光加热相关的热应力。
