Nanosecond dynamics of a gallium mirror's light-induced reflectivity change

/ Authors

V. Albanis, S. Dhanjal, V. Emelyanov, V. Fedotov, K. Macdonald, P. Petropoulos, D. Richardson, N. D. O. Physics, Astronomy, U. Southampton

and 9 more authors

Highfield, Southampton, UK., Optoelectronics Research Centre, D. Physics, International Laser Centre, M. University, Moscow, Russia.

/ Abstract

Transient pump-probe optical reflectivity measurements of the nano- to microsecond dynamics of a fully reversible, light-induced, surface-assisted metallization of gallium interfaced with silica are reported. The metallization leads to a considerable increase in the interface’s reflectivity when solid a-gallium is on the verge of melting. The reflectivity change was found to be a cumulative effect that grows with light intensity and pulse duration. The reflectivity relaxes back to that of a-gallium when the excitation is withdrawn in a time that increases critically at gallium’s melting point. It is shown that thermal processes cannot account for the effect and so a mechanism based on a nonthermal light-induced structural phase transition is proposed. DOI: 10.1103/PhysRevB.63.165207

Journal: Physical Review B

DOI: 10.1103/PhysRevB.63.165207