Nonlinear response of SiGe waveguides in the mid-infrared

The linear and nonlinear optical response of SiGe waveguides in the mid-infrared are experimentally measured. By cutback measurements we find the linear losses to be less than 1.5dB/cm between 3μm and 5μm, with a record low loss of 0.5dB/cm at a wavelength of 4.75μm. By launching picosecond pulses between 3.25μm and 4.75μm into the waveguides and measuring both their self-phase modulation and nonlinear transmission we find that nonlinear losses can be significant in this wavelength range due to free-carrier absorption induced by multi-photon absorption. This should be considered when engineering SiGe photonic devices for nonlinear applications in the mid-IR.

[1]  Yi Yu,et al.  Low-loss chalcogenide waveguides for chemical sensing in the mid-infrared. , 2013, Optics express.

[2]  Mathieu Carras,et al.  Low loss SiGe graded index waveguides for mid-IR applications. , 2014, Optics express.

[3]  G. Agrawal,et al.  Impact of two-photon absorption on self-phase modulation in silicon waveguides. , 2007, Optics letters.

[4]  Bahram Jalali,et al.  Silicon photonics: Nonlinear optics in the mid-infrared , 2010 .

[5]  Milos Nedeljkovic,et al.  Low loss silicon waveguides for the mid-infrared. , 2011, Optics express.

[6]  C Monat,et al.  Amorphous silicon nanowires combining high nonlinearity, FOM and optical stability. , 2012, Optics express.

[7]  D. Moss,et al.  Nonlinear loss dynamics in a silicon slow-light photonic crystal waveguide. , 2010, Optics letters.

[8]  William Headley,et al.  Silicon photonic waveguides for mid- and long-wave infrared region , 2009 .

[9]  J. Leuthold,et al.  Nonlinear silicon photonics , 2010 .

[10]  Benjamin J Eggleton,et al.  Integrated optical auto-correlator based on third-harmonic generation in a silicon photonic crystal waveguide. , 2014, Nature communications.

[11]  Marko Loncar,et al.  Integrated high-quality factor silicon-on-sapphire resonators for mid-infrared applications , 2013, CLEO: 2013.

[12]  Periklis Petropoulos,et al.  Optical properties of silicon germanium waveguides at telecommunication wavelengths. , 2013, Optics express.

[13]  Brian S. Wherrett,et al.  Scaling rules for multiphoton interband absorption in semiconductors , 1984 .

[14]  D. Moss,et al.  Green light emission in silicon through slow-light enhanced third-harmonic generation in photonic-crystal waveguides , 2009 .

[15]  R. Baets,et al.  Mid-infrared to telecom-band supercontinuum generation in highly nonlinear silicon-on-insulator wire waveguides. , 2011, Optics express.

[16]  Bill Corcoran,et al.  Slow light enhancement of nonlinear effects in silicon engineered photonic crystal waveguides. , 2009, Optics express.

[17]  Yurii A. Vlasov,et al.  Mid-infrared optical parametric amplifier using silicon nanophotonic waveguides , 2010, 1001.1533.

[18]  R. Soref Mid-infrared photonics in silicon and germanium , 2010 .

[19]  Yi Yu,et al.  Nonlinear absorption and refraction in crystalline silicon in the mid‐infrared , 2013 .