Real-Time Observation of a Coherent Lattice Transformation into a High-Symmetry Phase

Author(s)

Shin, Taeho; Cheng, Yu-Hsiang; Teitelbaum, Samuel Welch; Wolfson, Johanna W.; Porter, Ilana J.; Kandyla, Maria; Nelson, Keith Adam; ... Show more Show less

Abstract

Excursions far from their equilibrium structures can bring crystalline solids through collective transformations including transitions into new phases that may be transient or long-lived. The direct spectroscopic observation of far-from-equilibrium rearrangements provides fundamental mechanistic insight into chemical and structural transformations and a potential route to practical applications, including ultrafast optical control over material structure and properties. However, in many cases, photoinduced transitions are irreversible or only slowly reversible, or the light fluence required exceeds material damage thresholds. This requirement precludes conventional ultrafast spectroscopy, in which optical excitation and probe pulses irradiate the sample many times, each measurement providing information about the sample response at just one probe delay time following excitation, with each measurement at a high repetition rate and with the sample fully recovering its initial state in between measurements. Using a single-shot, real-time measurement method, we are able to observe the photoinduced phase transition from the semimetallic, low-symmetry phase of crystalline bismuth into a high-symmetry phase whose existence at high electronic excitation densities is predicted based on earlier measurements at moderate excitation densities below the damage threshold. Our observations indicate that coherent lattice vibrational motion launched upon photoexcitation with an incident fluence above 10  mJ/cm[superscript 2] in bulk bismuth brings the lattice structure directly into the high-symmetry configuration for several picoseconds, after which carrier relaxation and diffusion restore the equilibrium lattice configuration. Subject Areas: Condensed Matter Physics, Materials Science, Physical Chemistry

Date issued

2018-09

URI

http://hdl.handle.net/1721.1/118327

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Physical Review X

Publisher

American Physical Society

Citation

Teitelbaum, Samuel W., et al. “Real-Time Observation of a Coherent Lattice Transformation into a High-Symmetry Phase.” Physical Review X, vol. 8, no. 3, Sept. 2018. © 2018 American Physical Society

Version: Final published version

ISSN

2160-3308