• Title/Summary/Keyword: Photonic Integrated Circuit

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Design of a Compact and Wide Bandstop Filter using a Multilayered Photonic Bandgap Structure (다층 포토닉 밴드갭 구조를 이용한 소형의 광대역 저지 여파기 설계)

  • Seo, Jae-Ok;Park, Seong-Dae;Kim, Jin-Yang;Lee, Hai-Young
    • Journal of the Institute of Electronics Engineers of Korea TC
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    • v.39 no.11
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    • pp.34-39
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    • 2002
  • In this paper, we proposed novel photonic bandgap(PBG) structure using EGP(Elevated Ground Plane) and via in ceramic substrate of microstrip line. From analysis result, the proposed PBG structure is reduced 52.5% at size and increased 45 % at bandwidth compared to typical planar PBG structure. It is also reduced 32 % at size and improved more than 8 dB at power loss compared to typical multilayer DGS(Defected Ground Structure). The proposed PBG structure also can be used bandstop and lowpass filter and it will be useful for small microwave integrated circuit and module development.

All-optical mach-zehnder interferometric wavelength converter monolithically integrated with loss-coupled DFB probe source (Loss-Coupled DEB LD집적 Mach-Zehnder 간섭계형 파장 변환기)

  • 김현수;김종회;심은덕;백용순;김강호;권오기;오광룡
    • Korean Journal of Optics and Photonics
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    • v.14 no.4
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    • pp.454-459
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    • 2003
  • We report the first demonstration of 10 Gb/s wavelength conversion in a Mach-Zehnder interferometric wavelength converter monolithically integrated with a loss-coupled DFB probe source. The integrated device is fabricated using a BRS (buried ridge stripe) structure with an undoped InP clad layer on the top of a passive waveguide to reduce high propagation loss. The device exhibited a static extinction ratio of 11 dB. Good performance at 10 Gb/s is obtained with an extinction ratio of 7 dB and a power penalty of 2.8 dB at a 10$^{-9}$ bit error rate.

Design of a High-efficiency Fiber-to-chip Coupler with Reflectors

  • Yoo, Keon;Lee, Jong-Ho
    • IEIE Transactions on Smart Processing and Computing
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    • v.5 no.2
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    • pp.123-128
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    • 2016
  • In this paper, an inversely tapered coupler with Bragg reflectors is reported for the first time. With appropriately positioned reflecting structures, our fiber-to-chip coupler can more efficiently transmit the light from fiber to a waveguide in a photonic integrated circuit (PIC). A numerical simulation evaluated the coupler's efficiency with the reflector. Optimized parameters that maximize the efficiency of the coupler are also investigated. Simulation results show that the reflector with appropriate parameters enhances efficiency by up to 7 dB. Likewise, Bragg metal reflectors implemented by the conventional metallization process can also improve efficiency. It is also shown that the proposed reflector enhances the coupling efficiency in a double-tip taper coupler.

Optimization of Thermo-Optic Parameters for Temperature-Insensitive LPWG Refractometers

  • Lee, Dong-Seok;Kim, Kyong-Hon;Hwang, Seok-Hyun;Lee, Min-Hee;Lee, El-Hang
    • ETRI Journal
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    • v.28 no.6
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    • pp.739-744
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    • 2006
  • In this paper, we report numerically calculated results of testing a temperature-insensitive refractive sensor based on a planar-type long-period waveguide grating (LPWG). The LPWG consists of properly chosen polymer materials with an optimized thermo-optic coefficient for the core layer in a four-layer waveguide structure. The resonant wavelength shift below the spectral resolution of the conventional optical spectrum analyzer is obtained accurately over a temperature change of ${\pm}7.5^{\circ}C$ even without any temperature control. The refractive index sensitivity of the proposed grating scheme is about 0.004 per resonant wavelength shift of 0.1 nm for an optimized thermo-optic coefficient.

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An Optical Graphene-silicon Resonator Phase Shifter Suitable for Universal Linear Circuits

  • Liu, Changling;Wang, Jianping;Chen, Hongyao;Li, Zizheng
    • Current Optics and Photonics
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    • v.6 no.1
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    • pp.15-22
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    • 2022
  • This paper describes the construction of a phase shifter with low loss and small volume. To construct it, we use the two graphene layers that are separated by a hexagonal boron nitride (hBN) and embedded in a silicon waveguide. The refractive index of the waveguide is adjusted by applying a bias voltage to the graphene sheet to create an optical phase shift. This waveguide is a compact device that only has a radius of 5 ㎛. It has a phase shift of 6π. In addition, the extinction ratio (ER) is 11.6 dB and the insertion loss (IL) is 0.031 dB. Due to its unique characteristics, this device has great potential in silicon on-chip optical interconnection and all-optical multiple-input multiple-output processing.

Improvement of Thermal Stability of Optical Current Sensors Based on Polymeric Optical Integrated Circuits for Quadrature Phase Interferometry (사분파장 위상 간섭계 폴리머 광집적회로 기반 광전류센서의 온도 안정성 향상 연구)

  • Chun, Kwon-Wook;Kim, Sung-Moon;Park, Tae-Hyun;Lee, Eun-Su;Oh, Min-Cheol
    • Korean Journal of Optics and Photonics
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    • v.30 no.6
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    • pp.249-254
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    • 2019
  • An optical current sensor device that measures electric current by the principle of the Faraday effect was designed and fabricated. The polarization-rotated reflection interferometer and the quadrature phase interferometer were introduced so as to improve the operational stability. Complex structures containing diverse optical components were integrated in a polymeric optical integrated circuit and manufactured in a small size. This structure allows sensing operation without extra bias feedback control, and reduces the phase change due to environmental temperature changes and vibration. However, the Verdet constant, which determines the Faraday effect, still exhibits an inherent temperature dependence. In this work, we tried to eliminate the residual temperature dependence of the optical current sensor based on polarization-rotated reflection interferometry. By varying the length of the fiber-optic wave plate, which is one of the optical components of the interferometer, we could compensate for the temperature dependence of the Verdet constant. The proposed optical current sensor exhibited measurement errors maintained within 0.2% over a temperature range, from 25℃ to 85℃.