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

Volume

19

Issue

1

fYear

2013

fDate

Jan.-Feb. 2013

Firstpage

8401608

Lastpage

8401608

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;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/JSTQE.2012.2202216

Filename

6210355