Hanfland M, Syassen K, Christensen N E, Novikov D L
European Synchrotron Radiation Facility, Grenoble, France.
Nature. 2000 Nov 9;408(6809):174-8. doi: 10.1038/35041515.
Lithium is considered a 'simple' metal because, under ordinary conditions of pressure and temperature, the motion of conduction electrons is only weakly perturbed by interactions with the cubic lattice of atomic cores. It was recently predicted that at pressures below 100 GPa, dense Li may undergo several structural transitions, possibly leading to a 'paired-atom' phase with low symmetry and near-insulating properties. Here we report synchrotron X-ray diffraction measurements that confirm that Li undergoes pronounced structural changes under pressure. Near 39 GPa, the element transforms from a high-pressure face-centred-cubic phase, through an intermediate rhombohedral modification, to a cubic polymorph with 16 atoms per unit cell. This cubic phase has not been observed previously in any element; unusually, its calculated electronic density of states exhibits a pronounced semimetal-like minimum near the Fermi energy. We present total-energy calculations that provide theoretical support for the observed phase transition sequence. Our calculations indicate a large stability range of the 16-atom cubic phase relative to various other crystal structures tested here.
锂被认为是一种“简单”金属,因为在常压和常温条件下,传导电子的运动仅受到与原子核立方晶格相互作用的微弱干扰。最近有预测称,在低于100吉帕的压力下,致密锂可能会经历几次结构转变,这可能会导致形成具有低对称性和近绝缘特性的“成对原子”相。在此,我们报告了同步加速器X射线衍射测量结果,证实锂在压力下会发生显著的结构变化。在接近39吉帕时,该元素从高压面心立方相,经过中间的菱面体变体,转变为每单位晶胞含16个原子的立方多晶型体。这种立方相此前在任何元素中都未被观察到;不同寻常的是,其计算出的电子态密度在费米能量附近呈现出明显的类似半金属的最小值。我们给出了总能计算结果,为观察到的相变序列提供了理论支持。我们的计算表明,相对于此处测试的各种其他晶体结构,16原子立方相具有较大的稳定性范围。
