Optimal Design of an Ultrasmall SOI-Based 1 × 8 Flat-Top AWG by Using an MMI

Four methods based on a multimode interference (MMI) structure are optimally designed to flatten the spectral response of silicon-on-insulator- (SOI-) based arrayed-waveguide grating (AWG) applied in a demodulation integration microsystem. In the design for each method, SOI is selected as the material, the beam propagation method is used, and the performances (including the 3 dB passband width, the crosstalk, and the insertion loss) of the flat-top AWG are studied. Moreover, the output spectrum responses of AWGs with or without a flattened structure are compared. The results show that low insertion loss, crosstalk, and a flat and efficient spectral response are simultaneously achieved for each kind of structure. By comparing the four designs, the design that combines a tapered MMI with tapered input/output waveguides, which has not been previously reported, was shown to yield better results than others. The optimized design reduced crosstalk to approximately −21.9 dB and had an insertion loss of −4.36 dB and a 3 dB passband width, that is, approximately 65% of the channel spacing.

[1]  P. Dumon,et al.  Compact SOI-based AWG with flattened spectral response using a MMI , 2011, 8th IEEE International Conference on Group IV Photonics.

[2]  A. Rigny,et al.  Multigrating method for flattened spectral response wavelength multi/demultiplexer , 1997 .

[3]  Y.J. Chen,et al.  Flat channel-passband-wavelength multiplexing and demultiplexing devices by multiple-Rowland-circle design , 1997, IEEE Photonics Technology Letters.

[4]  Sailing He,et al.  Optimal design for a flat-top AWG demultiplexer by using a fast calculation method based on a Gaussian beam approximation , 2006 .

[5]  Junming An,et al.  Flat-top silica-based arrayed waveguide grating with 40-channels , 2006 .

[6]  Yuliang Liu,et al.  Compact SOI arrayed waveguide grating demultiplexer with broad spectral response , 2006 .

[7]  K. Maru,et al.  Low-loss, flat-passband and athermal arrayed-waveguide grating multi/demultiplexer. , 2007, Optics express.

[8]  D. Van Thourhout,et al.  Silicon-on-Insulator Spectral Filters Fabricated With CMOS Technology , 2010, IEEE Journal of Selected Topics in Quantum Electronics.

[9]  Jian-jun He Phase-dithered waveguide grating with flat passband and sharp transitions , 2002 .

[10]  Neil Genzlinger A. and Q , 2006 .

[11]  Hongqiang Li,et al.  Design of 1×8 silicon nanowire arrayed waveguide grating for on-chip arrayed waveguide grating demodulation integration microsystem , 2012 .

[12]  Enbang Li,et al.  Wearable sensors in intelligent clothing for measuring human body temperature based on optical fiber Bragg grating. , 2012, Optics express.

[13]  Sailing He,et al.  Using a tapered MMI to flatten the passband of an AWG , 2003 .