• Proceedings of the Optical Society of Korea Conference
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• 2002.07a
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• pp.168-169
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• 2002

일반적인 광섬유가 실리카로 만들어진 클래딩과 이보다 약간 굴절률이 높은 코어로 구성되어 있는 것과는 달리 광자결정 광섬유(photonic crystal fiber 또는 다공성 광섬유(holey fiber))는 코아와 클래딩이 순수 실리카로 구성되어 있다 클래딩의 효과를 주기 위해 광섬유 축을 따라서 규칙적인 공기구멍 다발을 형성하여 준다. 광자결정 광섬유는 특이한 광학적 특성 때문에 최근에 활발히 연구되어 지고 있다. 공기구멍의 구조를 조절함으로써 넓은 파장 영역에서 단일 모드로 진행하고(1), 아주 큰 분산을 갖게 할 수 lT고, hem 반경을 조절 할 수 있으며, 특이한 분산 특성과 이의 조절이 가능하다. (중략)

• Korean Journal of Optics and Photonics
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• v.21 no.5
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• pp.195-199
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• 2010

A broadband optical coupler with a broad bandwidth of 1000 nm based on a photonic crystal fiber (PCF) is investigated. The PCF has 6 layers of air hole structures and a diameter of $130{\mu}m$. The PCF-based coupler is fabricated by using a fused biconical tapering method based on heating and elongation processes. Changing temperature and an elongation length can control the bandwidth and the bandedge wavelength of the PCF-based broadband coupler. The diameter of the fused region in the PCF-based coupler was measured to be $23{\mu}m$. The fabricated PCF-based coupler has a nearly-flat coupling ration of 3-dB in a broad bandwidth of 1000 nm, which is wider than that of the previously reported PCF-based coupler and that of the single-modefiber-based coupler. Since the resolution of optical coherence tomography system is proportional to the bandwidths of both an optical light sources and an interferometer, the fabricated PCF-based broadband optical coupler has a great potential for realization of a broadband interferogram.

• Proceedings of the Optical Society of Korea Conference
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• 2002.07a
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• pp.164-165
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• 2002

광자결정 광섬유(photonic crystal fiber)는 주기적으로 배열된 공기기둥이 광섬유의 길이 방향으로 정렬되어 일반광섬유의 크래팅의 역할을 하고 있고 코어는 이들 공기구멍의 중심부에 인위적인 결함을 만들어 광도파가 가능하게 된다 이러한 광자결정 광섬유의 광학적 특성은 넓은 영역에 걸친 단일 모드 특성, 특이한 모드분산 강한 비선형 등의 기존의 광섬유와는 다른 광특성이 보고되고 있으며 테라 헐즈 펄스 도파가 보고되는 등 그 응용 영역을 넓히고 있다. (중략)

• Korean Journal of Optics and Photonics
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• v.18 no.1
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• pp.14-18
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• 2007

Photonic crystal fibers(PCFs) with silica cores within an away of air holes have unique properties. Broad band single-mode and the octave-spanning supercontinuum generation, impossible to achieve in classical fibers, can be realized. The design of PCFs is very flexible. There are two parameters to manipulate: air hole diameter, and lattice pitch. We introduced a fabrication process for control of the parameters to obtain endlessly single mode PCF, which is single mode in a large wavelength range, and highly nonlinear PCF. The numerical analysis and experiments are included.

• Journal of the Institute of Electronics Engineers of Korea SD
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• v.46 no.7
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• pp.15-21
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• 2009

We proposed a fusion splicing method for low splicing loss between a single-mode fiber(SMF) and two different photonic crystal fibers(PCFs) such as a photonic bandgap fiber(PBGF) and highly nonlinear photonic crystal fiber(NL-PCF). The splicing loss between the SMF and PBGF is affected by air-hole collapse. Therefore, we optimized fusion splicer and reduced a splicing loss below 1.22 dB. We also inserted a Intra High Numerical Aperture(UHNA) fiber between the SMF and NL-PCF to achieve a splicing loss of below 2.59 dB.

• Korean Journal of Optics and Photonics
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• v.18 no.2
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• pp.100-104
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• 2007

We have measured the optical spectra while varying the temperature of photonic crystal fibers (PCFs) with periodic air holes in the cladding. These are liquid crystal infiltrated fibers. For the liquid crystal infiltrated PCFs, we obtained the transmission of several wavelengths at specific temperatures. The transmission power could be reduced by about $10\sim15dB$ by varying the applied temperature in the liquid crystal PCF. We expect that it is applicable as a wavelength switching device in the specific wavelength band.

• Proceedings of the Optical Society of Korea Conference
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• 2008.07a
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• pp.407-408
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• 2008

• Proceedings of the Optical Society of Korea Conference
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• 2009.02a
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• pp.503-504
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• 2009

• Proceedings of the Optical Society of Korea Conference
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• 2002.11a
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• pp.26-27
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• 2002

• Korean Journal of Optics and Photonics
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• v.21 no.5
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• pp.200-205
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• 2010

We report temperature and strain sensing characteristics of two kinds of in-line fiber interferometers. One interferometer consists of a section of Hollow Optical Fiber(HOF) spliced between two Photonic Bandgap Fibers(PBGF) and the other is built by splicing a section of HOF between two Large Mode Area-Photonic Crystal Fibers(LMA-PCF). To minimize the splice losses, we carefully optimized the heating time and arc current of the splicer so as not to collapse the air holes of the fiber. It is found that the first interferometer has a temperature sensitivity of 15.4 pm/$^{\circ}C$ and a strain sensitivity of 0.24 pm/${\mu}\varepsilon$. The other interferometer exhibits a temperature sensitivity of 17.4 pm/$^{\circ}C$ and a strain sensitivity of 0.2 pm/${\mu}\varepsilon$.