Abstract

The lattice vibration of black phosphorus was investigated under hydrostatic high pressure by polarized Raman scattering. On applying pressure the crystal structure changes to the rhombohedral A7-structure from the layered orthorhombic structure at 52 kbar. At atmospheric pressure four phonon modes are observed at 362 cm -1 with A g -symmetry, 467 cm -1 A g , 194 cm -1 B 1 g and 439 cm -1 B 2 g . The Grüneisen parameters are 0.74 for the 362 cm -1 A g -mode, 0.10 for the 467 cm -1 A g -mode and 0.22 for the 439 cm -1 B 2 g -mode. The energies of the latter two modes change little with pressure, since in these modes the atoms displace to deform the rigid zigzag chain along the a -axis. In the A7-structure the A 1 g -mode was observed at 466 cm -1 and the E g -mode at 392 cm -1 . The comparison with the phonon modes in other group V materials was made.