Optics and Precision Engineering, Volume. 16, Issue 6, 993(2008)
Design of planar waveguide concave diffraction gratings
[3] [3] BEUTLER H G.The theory of concave grating[J].J.Opt.Soc.Am.,1945,35(5):311-350
[4] [4] KOTELES E S.Integrated planar waveguide demultiplexers for high-density WDM applications[J].Fiber and Integrated Optics,1999,18(4):211-244
[5] [5] SUN Z J,MCGREER K A,BROUGHTON J N.Demultiplexer with channels and 0.29 nm channel spacing[J].IEEE Photon.Technol.Lett.,1998,10(10):90-92
[6] [6] SOOLE J D B,SCHERER A,LEBLANC H P,et al..Monolithic InP/InGaAsP/InP grating spectrometer for the 1.48~1.56 m wavelength range[J].Appl.Phys.Lett.,1991,58(18):1949-1951
[7] [7] WANG D Y,JIN G F,YAN Y B,et al..Aberration theory of arrayed waveguide grating[J]J.Lightwave Technol.,2001,22(2):279-284
[8] [8] MCGREER.K.A.Thoery of concave gratings based on a recursive definition of facet positions[J].Appl.Opt.,1996,35(30):5904-5910
[9] [9] DRAGONE C.Efficient techniques for widening the passband of a wavelength router[J].J.Lightwave Technol.,1998,16(10):1895-1906
[10] [10] OKAMOTO K,SUGITA A.Flat spectral response arrayed-waveguide grating multiplexer with parabolic waveguide horns[J].Electron.Lett.,1996,32(18):1661-1662
[11] [11] RIGNY A,BRUNO A,SIK D U.Multigrating method for flattened spectral response wavelength multi/demultiplexer[J].Electron.Lett.,1997,33(20):1701-1702
[12] [12] SHI Z M,SAILING H.A three-focal-point method for the optimal design of a flat-top planar waveguide demultiplexer[J].IEEE J.Select.Topics Quantum Electron.,2002,8(6):1179-1186
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ZHOU Zhe-hai. Design of planar waveguide concave diffraction gratings[J]. Optics and Precision Engineering, 2008, 16(6): 993
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Received: Nov. 9, 2007
Accepted: --
Published Online: Feb. 28, 2010
The Author Email: Zhe-hai ZHOU (zhouzh07@mails.tsinghua.edu.cn)
CSTR:32186.14.