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Tuesday, September 1, 2015
Abstract-Coherent phonon spectroscopy of non-fully symmetric modes using resonant terahertz excitation
We use intense terahertz (THz) frequency electromagnetic pulses generated via optical rectification in an organic crystal to drive vibrational lattice modes in single crystal Tellurium. The coherent modes are detected by measuring the polarization changes of femtosecond laser pulses reflecting from the sample surface, resulting in a phase-resolved detection of the coherent lattice motion. We compare the data to a model of Lorentz oscillators driven by the near-single-cycle broadband THz pulse. The demonstrated technique of optically probed coherent phononspectroscopy with THz frequency excitation could prove to be a viable alternative to other time-resolvedspectroscopic methods like standard THz time domainspectroscopy.