Title :
Quantum Physics With Ultrabroadband and Intense Terahertz Pulses
Author :
Pashkin, A. ; Junginger, F. ; Mayer, Barbara ; Schmidt, Christoph ; Schubert, O. ; Brida, Daniele ; Huber, Rainer ; Leitenstorfer, Alfred
Author_Institution :
Univ. of Konstanz, Konstanz, Germany
Abstract :
We present recent advances in the generation of highly intense multiterahertz transients and their application to nonlinear spectroscopy of bulk semiconductors. An optimized scheme of parametric amplification results in broadband single- or few-cycle terahertz transients with peak electric fields up to 10 or 25 MV/cm, respectively. Time-resolved four-wave mixing terahertz spectroscopy of InSb far away from the interband resonance demonstrates clear signatures of a nonperturbative regime of Rabi flopping. We qualitatively explain the observed behavior within a model of a quantum two-level system. In addition, we demonstrate the dynamical Franz-Keldysh effect in InP resolved on a subcycle timescale. The field-induced modulation of the interband optical absorption at the second harmonic of the driving terahertz field is observed in full agreement with theoretical predictions.
Keywords :
III-V semiconductors; indium compounds; microwave photonics; multiwave mixing; optical harmonic generation; optical modulation; optical parametric amplifiers; optical pulse generation; quantum optics; terahertz wave generation; terahertz wave spectra; time resolved spectra; InP; InSb; Rabi flopping; broadband single-cycle terahertz transients; bulk semiconductors; dynamical Franz-Keldysh effect; electric fields; few-cycle terahertz transients; field-induced modulation; intense multiterahertz transient generation; intense terahertz pulses; interband optical absorption; interband resonance; nonlinear spectroscopy; nonperturbative regime; optimized scheme; parametric amplification; quantum physics; quantum two-level system; second harmonics; terahertz field; time-resolved four-wave mixing terahertz spectroscopy; ultrabroadband terahertz pulses; Bandwidth; Broadband communication; Crystals; Frequency conversion; Gases; Nonlinear optics; Transient analysis; Electrooptic effects; four-wave mixing; nonlinear optics; semiconductor materials; terahertz technology; ultrafast optics;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2012.2202216
