VO$_2$ and V$_2$O$_3$: different pathways for the same phase transition?

ORAL

Abstract

Decades of investigation have led to a better understanding of the properties of vanadates but a great deal remains to be explored in these scientifically fascinating and technologically relevant systems. VO$_2$ and V$_2$O$_3$ are canonical examples of these transition metal oxides, strongly influenced by both electronic correlations and structural effects. In both materials the MIT is known to occur following a variation in temperature, the application of a dc field, optical pumping and more recently the application of transient THz pulses. The question that naturally arises is whether and how the dynamics of the MIT depend on the nature of the stimulus that induced it. We will present time-resolved optical and THz investigations, including high THz field results, of thin films of V$_2$O$_3$ and VO$_2$.

*This work is supported by the Air Force Office of Scientific Research No. FA9550-12-1-0381, DOE DE-FG02-09ER46643 and Portugal's FCT SFRH/BD/47847/2008.

Authors

  • E. Abreu

    • Physics Dpt, BU, Boston MA

  • J. Zhang

    • Physics Dpt, BU, Boston MA

  • S. Wang

    • Dpt of Physics and Center for Advanced Nanoscience, UCSD; Materials Science and Eng Pgm, UCSD, La Jolla CA

  • K. Geng

    • Physics Dpt, BU, Boston MA

  • L. Cao

    • Physics Dpt, BU, Boston MA

  • S. Kittiwatanakul

    • Dpt of Materials Science and Eng, UVa, Charlottesville VA

  • J. Lu

    • Dpt of Materials Science and Eng, UVa, Charlottesville VA

  • M. Liu

    • Dpt of Physics, UCSD, La Jolla CA

  • J.G. Ramirez

    • Dpt of Physics and Center for Advanced Nanoscience, UCSD, La Jolla CA

  • S.A. Wolf

    • Dpt of Materials Science and Engineering, UVa, Charlottesville VA

  • I.K. Schuller

    • Dpt of Physics and Center for Advanced Nanoscience, UCSD; Materials Science and Eng Pgm, UCSD, La Jolla CA

  • R.D. Averitt

    • Physics Dpt, BU, Boston MA