Broadband telecom to mid-infrared supercontinuum generation in a dispersion-engineered silicon germanium waveguide

Abstract: We demonstrate broadband supercontinuum generation (SCG) in a dispersion-engineered silicongermanium waveguide. The 3-cm long waveguide is pumped by femtosecond pulses at 2.4µm and the generated supercontinuum extends from 1.45µm to 2.79µm (at the -30-dB point). The broadening is mainly driven by the generation of a dispersive wave in the 1.5-1.8µm region and soliton fission. The SCG was modelled numerically and excellent agreement with the experimental results was obtained. © Silicon (Si) photonics has witn… Show more

“…The efficient wavelength conversion process enabled the generation of an idler with a high OSNR, resulting in a negligible BER conversion penalty for both the 16-and 64-QAM demonstrations. These results, along with previous demonstrations [11,13], highlight the versatility of the SiGe waveguide platform and its strong potential in implementing a wide range of state-of-the-art all-optical signal processing applications both in the near-and the mid-infrared [16,17]. …”

Wavelength conversion of complex modulation formats in a compact SiGe waveguide

“…The efficient wavelength conversion process enabled the generation of an idler with a high OSNR, resulting in a negligible BER conversion penalty for both the 16-and 64-QAM demonstrations. These results, along with previous demonstrations [11,13], highlight the versatility of the SiGe waveguide platform and its strong potential in implementing a wide range of state-of-the-art all-optical signal processing applications both in the near-and the mid-infrared [16,17]. …”

Wavelength conversion of complex modulation formats in a compact SiGe waveguide

“…The results reported here further demonstrate the emergence of SiGe devices as a competitive all-optical signal processing technology. The inclusion of Ge in the waveguides facilitates flexible dispersion engineering and enhances the effective nonlinear coefficient, making SiGe technology a versatile choice for a wide range of nonlinear applications [17][18][19].…”

Polarization Insensitive Wavelength Conversion in a Low-Birefringence SiGe Waveguide

“…This limits the number of different molecules that can be detected with a single system. An appealing approach that has been suggested by the silicon photonics community is to create mid-IR CMOS compatible integrated photonic platforms [1,2] that are capable of yielding broadband optical sources via nonlinear effects such as supercontinuum, frequency combs, and others [8][9][10][11][12][13][14]. More generally, the mid-IR has been predicted to be a promising wavelength range for nonlinear devices based on group IV materials (like Si, Ge and Si-Ge).…”

“…In particular, the nonlinear loss associated with two photon absorption (TPA) that limits device performance in all of these materials at telecom wavelengths [15][16][17] vanishes at longer wavelengths. This potentially could open the door to realizing photonic devices with new capabilities such as, super continuum [8][9][10], wide bandwidth frequency combs [11,12] and parametric waveguide amplifiers with positive net gain [13,14]. However, apart from one report of nonlinear optics out to 6 μm in the silicon on sapphire (SOS) platform [9], Si has hardly been investigated beyond the short-wavelength infrared (SWIR), limited to 3 μm, due to both absorption in the cladding material (i.e.…”

“…The wide transparency window of this material as well as significant progress on deposition and fabrication techniques have enabled some very promising results in both linear [21,22] and nonlinear performance [10,[22][23][24] in the last year alone. Ridge waveguides in Si 0.6 Ge 0.4 /Si with a graded refractive index distribution in the core that were designed for low loss operation over the entire 3 μm to 8 μm wavelength region have been reported [21].…”

Mid-infrared nonlinear optical response of Si-Ge waveguides with ultra-short optical pulses