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Cascaded Volume Holographic Gratings for expanding the Channel Number of a Optical Demultiplexer
Lee, Kwon-Yeon,Jeung, Sang-Huek,Do, Duc-Dung,An, Jun-Won,Kim, Nam The Korea Institute of Convergence Signal Processi 2007 융합신호처리학회 논문지 (JISPS) Vol.8 No.2
캐스케이드 홀로그래픽 부피격자를 이용한 130채널 광 역다중화기를 제안하고 실험적으로 입증하였다. 첫 번째 격자와는 서로 다른 격자주기, 경사각, 중심파장 등은 갖는 두 번째 홀로그래픽 격자를 첫 번째 격자에 직렬로 부가함으로써 역 다중화기의 동작파장범위를 늘릴 수 있으며, 결국 홀로그래픽 역다중화기의 채널수는 두 배 증가하게 된다. 본 논문에서는 채널 균일도가 3.5dB, 3dB 대역폭이 0.12nm, 채널누화가 -20dB인 0.4nm 채널간격을 갖는 역다중화기를 실험적으로 구현하였다. In this paper, the demonstration of a 130-channel optical demultiplexer based on the cascaded volume holographic gratings is presented. By serially adding the second holographic grating, which has different grating period, slant angle, and center wavelength compared to those of the first grating, the operating wavelength range of the optical demultiplexer could be expanded, and therefore, the number of channels of the holographic demultiplexer is increased by twice. As a result of the experiment, a 0.4-nm-spaced demultiplexer with the channel uniformity of 3.5 dB, the 3dB-bandwidth of 0.12nm, and the channel crosstalk of -20dB is experimentally achieved.
Lee, Kwon-Yeon,Jeung, Sang-Huek,Do, Due-Dung,Kim, Nam,An, Jun-Won Optical Society of Korea 2007 Current Optics and Photonics Vol.11 No.2
A holographic demultiplexer aimed at producing low polarization dependence loss using a long period volumetric diffraction grating inside photopolymer has been reported and experimentally demonstrated. To obtain the long period gratings, two kinds of gratings are recorded by angle of $4^{\circ}\;and\;6^{\circ}$ corresponding to the polarization dependence property of below 0.5 dB. From the experimental results, we demonstrate the 0.8 nm-spaced 21 channel holographic demultiplexer with the polarization dependence loss of less than -0.38 dB, the channel uniformity of 0.495 dB, and the channel crosstalk of -13 dB.
이권연,조병모,Nam Kim,Sang-Huek Jeung 한국광학회 2012 Current Optics and Photonics Vol.16 No.1
A surface-normal input/output volume holographic grating coupler (VHGC) operating at 1550nm wavelength region by using a 10μm-thick DuPont photopolymer film is designed and fabricated. The angular and wavelength responses of the input/output VHGC are investigated in order to validate applicability of this device in integrated optics and optical communications. The effect of incident-beam position on the output reflectance to determine optimum condition for input coupling is also presented. The fabricated input/output VHGC exhibited an angular selectivity of ~0.027°, a wavelength selectivity of ~0.8 nm, and an output peak reflectance of 34.13%.
광연결을 위한 포토폴리머형 홀로그래픽 부피격자 커플러의 설계 및 구현
이권연,정상혁,조병모,손명식,전석희,Lee, Kwon-Yeon,Jeung, Sang-Huek,Cho, Byung-Mo,Son, Myung-Sik,Jeon, Seok-Hee 한국융합신호처리학회 2008 융합신호처리학회 논문지 (JISPS) Vol.9 No.4
홀로그래픽 부피격자 커플러(VGC : volume grating coupler)는 높은 선택적 결합효율, 건식 제조공정, 콤팩트한 소자 제작이 가능하고 저렴하기 때문에 광연결 기술의 구현 및 응용에 매우 매력적인 소자로 간주되고 있다. 본 논문에서는 도파로형 광연결에 적용키 위한 $45^{\circ}$ 격자 경사각을 갖는 도파로 삽입형 입 출력 VGC를 DuPont사의 HRF600-20 홀로그래픽 포토폴리머를 이용하여 설계, 구현하기 위한 방법을 제안하였다. 그리고 제안한 VGC 소자의 유용성을 입증키 위해 동작파장이 각각 632.8nm 및 1550nm인 VGC를 제작하고 실험결과를 제시하였다. 실험결과 632.8nm 파장에서 동작하는 격자주기가 $0.5{\mu}m$인 단일 VGC의 경우 TE 편광에서 입력 결합효율은 86.6% 이상이고, 1550nm 파장에서 동작하는 격자주기가 $0.73068{\mu}m$인 $1\times2$ VGC의 입력 결합효율은 $\sim90.9%$의 특성을 나타내었다. Holographic volume grating couplers (VGCs) are become increasingly attractive device for the application of optical interconnects because of their higher preferential coupling, dry fabrication processing, compact, and low cost. In this paper, the analysis, design, and implementation of the waveguide-imbedded input-output VGC with $45^{\circ}$ grating slant angle using holographic photopolymer(Dupont HRF600-20) for guided-wave optical interconnection applications, are presented. To show the usefulness of the proposed VGC, we fabricated the VGCs operating at 632.8nm and 1550nm wavelengths and its results are presented. The measured input coupling efficiency of the single VGC with $0.5{\mu}m$ grating period at 632.8nm wavelength is above 86.6% for TE-polarization. The input coupling efficiency of the $1\times2$ VGC with $0.73068{\mu}m$ grating period at 1550nm wavelength is about 90.8%.