The aim of the present proposal is the direct generation of coherent continuous wave (CW) THz radiation by a nonlinear optical (NLO) approach via difference frequency generation (DFG) in III-V compound semiconductor waveguides due to the second order nonlinear optical susceptibility χ(2) of GaAs or InGaAs, i.e., the intra-waveguide interaction of a pump frequency ωP and a signal frequency ωS resulting in an idler frequency ωi = ωP - ωS in the THz range. Here, the second order non-linearity of GaAs or InGaAs will be explored in the mid-infrared (MIR) at ~ 5-20μm by powerful quantum cascade lasers as the laser source. One key requirement of NLO, phase matching, will be realised by form birefringence in optical heterostructures, quasi-phase matching (QPM) and modal polaritonic phase matching (PPM). The working program consists of two experimental key features: a. Realisation of a stable coherent two-wavelength or two-frequency source in the mid-infrared spectral domain (around 5 to 20 μm) with well-controlled tailored spectral performance by external cavity quantum cascade laser configurations. b. Efficient THz generation via nonlinear optical interaction of these two frequencies in semiconductor-based waveguides including a detailed understanding and modelling and optimisation of the nonlinear optical process in strong feedback and interaction with technology partners from the Forschergruppe in Erlangen and Berlin.

DFG Programme Research Grants

Major Instrumentation Fourier Spektrometer

Instrumentation Group 1830 Fourier-Transform-IR-Spektrometer