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    • 1. 发明授权
    • Dispersive optical fiber using binary component silica
    • 使用二元组分二氧化硅的分散光纤
    • US06636684B1
    • 2003-10-21
    • US09337761
    • 1999-06-22
    • Un-chul PaekKyung-hwan OhHong-seok Seo
    • Un-chul PaekKyung-hwan OhHong-seok Seo
    • G02B600
    • G02B6/03611G02B6/03694G02B6/29368
    • A dispersive optical fiber having variable core-cladding refractive index differences depending on wavelength is provided. The dispersive optical fiber includes a core made of silica doped with a first dispersive material, and a cladding made of silica doped with a second dispersive material, wherein the refractive indices of the first and the second dispersive materials cross each other at a predetermined cross wavelength. The first and second dispersive materials include boron and fluorine. The dispersive optical fiber is attained by doping each dispersive material into the core and the cladding, respectively, thereby minimizing transmission loss, and is capable of being coupled to general optical fibers.
    • 提供了具有取决于波长的可变的芯 - 包层折射率差的分散光纤。 分散光纤包括由掺杂有第一分散材料的二氧化硅制成的芯和由掺杂有第二分散材料的二氧化硅制成的包层,其中第一和第二分散材料的折射率以预定的交叉波长彼此交叉 。 第一和第二分散材料包括硼和氟。 分散光纤通过将每个分散材料分别掺入到芯和包层中来实现,从而最小化传输损耗,并且能够耦合到通用光纤。
    • 3. 发明授权
    • Multi-cladding optical fiber, long-period optical fiber grating written therein and writing method thereof
    • 多层包层光纤,其中写入的长周期光纤光栅及其写入方法
    • US06307994B1
    • 2001-10-23
    • US09338572
    • 1999-06-23
    • Un-chul PaekKyung-hwan OhYoung-geun Han
    • Un-chul PaekKyung-hwan OhYoung-geun Han
    • G02B602
    • G02B6/03627G02B6/02095G02B6/021G02B6/02147
    • A multi-cladding optical fiber, a long-period optical fiber grating written in the optical fiber, and a writing method thereof are provided. The multi-cladding optical fiber includes a core made of germanium-doped silica (GeO2—SiO2), for guiding light, an inner cladding made of fluorine-doped silica (F—SiO2), the inner cladding having a refractive index smaller than that of the core and surrounding the core, and an outer cladding made of silica, the outer cladding having a refractive index smaller than that of the core and larger than that of the inner cladding and surrounding the inner cladding. Therefore, an optimized optical fiber can be designed. That is to say, an optical fiber having desired characteristics can be fabricated by adjusting at least one of the parameters including the amount of F doped into the inner cladding, the thickness of the inner cladding, the amount of GeO2 doped into the core, the composition of SiO2 in the outer cladding and the drawing tension of the optical fiber. Also, the refractive index of the core is periodically changed by periodically annealing the multi-cladding optical fiber, so that a stress-released long-period optical fiber grating can be obtained.
    • 提供多层包层光纤,写在光纤中的长周期光纤光栅及其写入方法。 多包层光纤包括由锗掺杂二氧化硅(GeO 2 -SiO 2)制成的芯,用于引导光,由​​氟掺杂二氧化硅(F-SiO 2)制成的内包层,内包层的折射率小于 的芯部并且围绕芯部,以及由二氧化硅制成的外包层,外包层的折射率小于芯的折射率,并且大于内包层的折射率并且围绕内包层。 因此,可以设计优化的光纤。 也就是说,具有期望特性的光纤可以通过调整至少一个参数来制造,所述参数包括掺杂到内部包层中的F的量,内部包层的厚度,掺入到芯中的GeO 2的量, 外包层中SiO2的组成和光纤的拉伸张力。 此外,通过周期性地退火多包层光纤来周期性地改变芯的折射率,从而可以获得应力释放的长周期光纤光栅。
    • 7. 发明申请
    • HYBRID PHOTONIC CRYSTAL FIBER, AND METHOD FOR MANUFACTURING SAME
    • 混合光电晶体纤维及其制造方法
    • US20140178023A1
    • 2014-06-26
    • US14236300
    • 2012-01-11
    • Kyung-Hwan OhJi-Young Park
    • Kyung-Hwan OhJi-Young Park
    • G02B6/02C03B37/15
    • G02B6/02314C03B37/15G02B6/02328G02B6/032
    • The present invention relates to a hybrid photonic crystal fiber, into the core of which a functional material is injected. The hybrid photonic crystal fiber of the present invention comprises: a central hole having a diameter of 4 to 15 μm extending in the longitudinal direction; an inner cladding also formed in the longitudinal direction outside the central hole, having a hexagonal arrangement of air holes, each of which has a diameter of 2 to 5 μm and a lattice constant of 4.5 to 7 μm; an annular outer cladding surrounding the outer surface of the inner cladding; and a core formed by filling a functional material in some of the air holes including the central hole. According to the present invention, changes in the state, i.e. the liquid, liquid-crystal, or biofluid states, of the functional material that fills the core that has a variety of shapes may enable the modulation of light intensity, wavelength, phase, and polarization, and thus enable various photonic networks to be produced. The hybrid photonic crystal fiber of the present invention may serve as various optical sensors capable of sensing changes in refractive index caused by external stresses such as temperature and pressure. The hybrid photonic crystal fiber of the present invention may be used as a light source for a fluorescent dye laser for a visible ray zone using fluorescent dye, or for an ultra-wideband laser of 700 nm or higher using high nonlinear liquid.
    • 本发明涉及混合光子晶体光纤,其中注入功能材料的核心。 本发明的混合光子晶体光纤包括:沿纵向延伸的直径为4至15μm的中心孔; 在中心孔的外侧沿长度方向形成的内包层,具有六边形排列的气孔,每个孔的直径为2〜5μm,晶格常数为4.5〜7μm。 围绕所述内包层的外表面的环形外包层; 以及通过在包括中心孔的一些气孔中填充功能材料而形成的芯。 根据本发明,填充具有各种形状的芯的功能材料的状态(即液体,液晶或生物流体状态)的变化可使得能够调制光强度,波长,相位和 极化,从而能够产生各种光子网络。 本发明的混合光子晶体光纤可以用作能够感测由诸如温度和压力的外部应力引起的折射率变化的各种光学传感器。 可以使用本发明的混合光子晶体光纤作为使用荧光染料的可见光区域的荧光染料激光器的光源或者使用高非线性液体的700nm以上的超宽带激光器。