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1. 发明申请

US20060262387A1 Optical amplifier fiber 审中-公开
标题翻译：光放大器光纤
公开(公告)号：US20060262387A1
公开(公告)日：2006-11-23
申请号：US11434073
申请日：2006-05-16
申请人： Tetsuya Haruna , Toshiki Taru , Masashi Onishi , Motoki Kakui , Shinji Ishikawa
发明人： Tetsuya Haruna , Toshiki Taru , Masashi Onishi , Motoki Kakui , Shinji Ishikawa
IPC分类号： H01S3/00 , H04B10/12
CPC分类号： H01S3/06716
摘要： Provided is an optical amplifier fiber in which both increasing output light power and sufficiently inhibiting the occurrence of nonlinear optical phenomenon can be compatibly achieved. In addition, an optical amplifier and light source equipment, in which such optical amplifier fiber is used, are provided. The optical amplifier fiber comprises (1) a core region doped with an aluminum element in the range of 1 wt % to 10 wt %, an erbium element in the range of 1000 wt. ppm to 5000 wt. ppm, and a fluorine element, the core region having an outer diameter in the range of 10 μm to 30 μm, and (2) a cladding region surrounding the core region and having a refractive index that is lower than the core region, wherein the relative refractive index difference of the core region relative to the cladding region is 0.3% or more and 2.0% or less.
摘要翻译：提供了可以兼容地实现增加输出光功率并充分抑制非线性光学现象的发生的光放大器光纤。此外，提供了使用这种光放大器光纤的光放大器和光源设备。光放大器光纤包括（1）掺杂有1重量％至10重量％范围的铝元素的芯区域，铒元素在1000重量％范围内。 ppm至5000wt。 ppm，以及氟元素，芯区域的外径在10μm〜30μm的范围内，（2）围绕芯区域的折射率低于芯区域的包层区域，其中，芯区域相对于包层区域的相对折射率差为0.3％以上且2.0％以下。

2. 发明申请

US20090133445A1 Method for manufacturing glass body and method for manufacturing optical fiber 审中-公开
标题翻译：制造玻璃体的方法及其制造方法
公开(公告)号：US20090133445A1
公开(公告)日：2009-05-28
申请号：US11991266
申请日：2006-08-29
申请人： Tetsuya Haruna , Toshiki Taru , Motoki Kakui , Masashi Onishi
发明人： Tetsuya Haruna , Toshiki Taru , Motoki Kakui , Masashi Onishi
IPC分类号： C03B37/02
CPC分类号： C03B37/018 , C03B37/01853 , C03B37/01869 , C03B2201/30 , C03B2201/32 , C03B2207/32
摘要： A method for manufacturing a glass body containing bismuth, which can be used for manufacturing an optical fiber having a low background-loss is provided. The method includes depositing a glass micro-particle layer on an inner wall of a glass pipe, consolidating the glass micro-particle layer to form a glass layer, reducing of a diameter of the glass pipe having the glass layer on the inner wall of the glass pipe, and collapsing the glass pipe having been reduced in diameter at the diameter-reducing step so as to form the glass body. At the depositing step, the glass micro-particle layer is formed while an organobismuth compound is being supplied into the glass pipe. At the consolidating step, the glass layer is consolidated while an organobismuth compound is being supplied into the glass pipe. The optical fiber is made by drawing the glass body.
摘要翻译：提供了可用于制造背景损耗低的光纤的含有铋的玻璃体的制造方法。该方法包括在玻璃管的内壁上沉积玻璃微粒子层，固化玻璃微粒层以形成玻璃层，减少在玻璃管的内壁上具有玻璃层的玻璃管的直径玻璃管，并且在直径减小步骤中使直径减小的玻璃管塌缩，以形成玻璃体。在沉积步骤中，形成玻璃微粒层，同时向玻璃管中供应有机铋化合物。在固结步骤中，玻璃层被固结，而有机铋化合物被供应到玻璃管中。光纤通过拉制玻璃体制成。

3. 发明申请

US20050284182A1 Manufacturing method of optical fiber and optical fiber 审中-公开
标题翻译：光纤和光纤的制造方法
公开(公告)号：US20050284182A1
公开(公告)日：2005-12-29
申请号：US11102877
申请日：2005-04-11
申请人： Toshiki Taru , Shinji Ishikawa , Tetsuya Haruna , Motoki Kakui , Takahiro Murata
发明人： Toshiki Taru , Shinji Ishikawa , Tetsuya Haruna , Motoki Kakui , Takahiro Murata
IPC分类号： G02B6/00 , C03B37/012 , C03B37/027 , C03B37/075 , C03C13/04
CPC分类号： C03C13/046 , C03B37/02754 , C03B2201/10 , C03B2201/12 , C03B2201/28 , C03B2201/36 , C03B2205/14 , C03B2205/40 , C03B2205/72
摘要： There is disclosed a method of manufacturing an optical fiber whose core is made of multi-component glass without fluctuation in its outer diameter and occurrence of sudden breakage thereof, with a technique of unifying a core rod and a cladding tube at the time of drawing, and yet drawing them; and the optical fiber having a multi-component glass core are disclosed.
摘要翻译：公开了一种制造光纤的方法，该光纤的芯部由多部件玻璃制成，其外径波动并且突然断裂的发生，在拉拔时使芯棒和包层管均匀化的技术，并画画; 并且公开了具有多组分玻璃芯的光纤。

4. 发明申请

US20050122574A1 Optical amplification fiber, optical amplifier module, optical communication system and optical amplifying method 失效
标题翻译：光放大光纤，光放大器模块，光通信系统和光放大方法
公开(公告)号：US20050122574A1
公开(公告)日：2005-06-09
申请号：US10933473
申请日：2004-09-03
申请人： Motoki Kakui , Tetsuya Haruna , Shinji Ishikawa
发明人： Motoki Kakui , Tetsuya Haruna , Shinji Ishikawa
IPC分类号： G02B6/02 , H01S3/00 , H01S3/067 , H01S3/094
CPC分类号： H01S3/06754 , G02B6/02 , H01S3/06708 , H01S3/06716 , H01S3/06758 , H01S3/06766 , H01S3/094011
摘要： The present invention relates to an optical amplification fiber and others capable of effectively reducing nonlinear interaction between signal channels even in transmission of multiplexed signal light containing multiple signal channels arranged in high density and also effectively reducing bending loss. An optical amplification module has an optical isolator, a WDM coupler, an Er-doped optical fiber (EDF) as an optical amplification fiber, a WDM coupler, and an optical isolator, which are arranged in order on a signal light propagation path from an input connector to an output connector, and further has a pumping light source connected to the WDM coupler and a pumping light source connected to the other WDM coupler. The EDF, at the wavelength of 1607 nm, has a mode field diameter (MFD) of 10 μm or more to the fundamental mode and a MAC number (=MFD/cutoff wavelength) of 6.8 or less to the fundamental mode.
摘要翻译：本发明涉及一种光放大光纤和其他能够有效降低信号通道之间的非线性相互作用的技术，即使在包含以高密度布置的多个信号通道的多路复用信号光的传输中，并且还有效地减少了弯曲损耗。光放大模块具有光隔离器，WDM耦合器，作为光放大光纤的掺铒光纤（EDF），WDM耦合器和光隔离器，它们依次布置在信号光传播路径上输入连接器连接到输出连接器，并且还具有连接到WDM耦合器的泵浦光源和连接到另一WDM耦合器的泵浦光源。在1607nm波长处的EDF具有基本模式的10mum以上的模场直径（MFD），与基本模式的MAC数（= MFD /截止波长）为6.8以下。

5. 发明授权

US07436583B2 Optical amplification fiber, optical amplifier module, optical communication system and optical amplifying method 失效
标题翻译：光放大光纤，光放大器模块，光通信系统和光放大方法
公开(公告)号：US07436583B2
公开(公告)日：2008-10-14
申请号：US10933473
申请日：2004-09-03
申请人： Motoki Kakui , Tetsuya Haruna , Shinji Ishikawa
发明人： Motoki Kakui , Tetsuya Haruna , Shinji Ishikawa
IPC分类号： H01S3/00 , H01S3/10 , H04B10/12
CPC分类号： H01S3/06754 , G02B6/02 , H01S3/06708 , H01S3/06716 , H01S3/06758 , H01S3/06766 , H01S3/094011
摘要： The present invention relates to an optical amplification fiber and others capable of effectively reducing nonlinear interaction between signal channels even in transmission of multiplexed signal light containing multiple signal channels arranged in high density and also effectively reducing bending loss. An optical amplification module has an optical isolator, a WDM coupler, an Er-doped optical fiber (EDF) as an optical amplification fiber, a WDM coupler, and an optical isolator, which are arranged in order on a signal light propagation path from an input connector to an output connector, and further has a pumping light source connected to the WDM coupler and a pumping light source connected to the other WDM coupler. The EDF, at the wavelength of 1607 nm, has a mode field diameter (MFD) of 10 μm or more to the fundamental mode and a MAC number (=MFD/cutoff wavelength) of 6.8 or less to the fundamental mode.
摘要翻译：本发明涉及一种光放大光纤和其他能够有效降低信号通道之间的非线性相互作用的技术，即使在包含以高密度布置的多个信号通道的多路复用信号光的传输中，并且还有效地减少了弯曲损耗。光放大模块具有光隔离器，WDM耦合器，作为光放大光纤的掺铒光纤（EDF），WDM耦合器和光隔离器，它们依次布置在信号光传播路径上输入连接器连接到输出连接器，并且还具有连接到WDM耦合器的泵浦光源和连接到另一WDM耦合器的泵浦光源。在1607nm波长处的EDF具有基本模式的10mum以上的模场直径（MFD），与基本模式的MAC数（= MFD /截止波长）为6.8以下。

6. 发明申请

US20050276564A1 Optical waveguide, light source, and optical amplifier 审中-公开
标题翻译：光波导，光源和光放大器
公开(公告)号：US20050276564A1
公开(公告)日：2005-12-15
申请号：US11118754
申请日：2005-05-02
申请人： Motoki Kakui , Shinji Ishikawa , Tetsuya Haruna , Takahiro Murata
发明人： Motoki Kakui , Shinji Ishikawa , Tetsuya Haruna , Takahiro Murata
IPC分类号： H01S3/06 , G02B6/00 , G02B6/02 , H01S3/00 , H01S3/067 , H01S3/07 , H01S3/10 , H01S3/16 , H01S3/23
CPC分类号： G02B6/02 , H01S3/005 , H01S3/0064 , H01S3/06716 , H01S3/06754 , H01S3/1608 , H01S3/1616 , H01S3/1618 , H01S3/2383
摘要： The present invention relates to an optical waveguide and the like having a structure for generating a wide band of ASE. The optical waveguide comprises a material mainly comprised of glass or glass ceramics, and is at least partly doped with a rare earth element. In a spectrum of ASE generated in the optical waveguide when supplied with pumping light having a single wavelength in particular, a 15-dB band or 10-dB band includes a range from 1.45 μm to 1.65 μm or a range from 1.5 μm to 1.7 μm. Alternatively, a 3-dB band includes S, C, and L bands.
摘要翻译：本发明涉及具有用于产生ASE的宽带的结构的光波导等。光波导包括主要由玻璃或玻璃陶瓷组成的材料，并且至少部分地掺杂有稀土元素。在提供特别是具有单一波长的泵浦光的光波导中产生的ASE的光谱中，15dB带或10dB带包括1.45μm至1.65μm的范围或1.5μm至1.7μm的范围。或者，3dB频带包括S，C和L频带。

7. 发明授权

US06813065B2 Raman amplifier and optical communication system 失效
标题翻译：拉曼放大器和光通信系统
公开(公告)号：US06813065B2
公开(公告)日：2004-11-02
申请号：US09929503
申请日：2001-08-15
申请人： Tetsufumi Tsuzaki , Motoki Kakui , Shinji Ishikawa , Masashi Onishi
发明人： Tetsufumi Tsuzaki , Motoki Kakui , Shinji Ishikawa , Masashi Onishi
IPC分类号： H01S300
CPC分类号： H04B10/2916 , H01S3/06716 , H01S3/06758 , H01S3/302 , H04B2210/003
摘要： Disclosed are a gain module and an optical communication system which have gain in a broad wavelength range and are of low cost. The gain module 10 has two optical fibers 111 and 112 which differ from each other with respect to the composition of their respective optical waveguide region and which are connected in series. Because they differ from each other with respect to the quantity of their respective Stokes shift, they have gain in a different wavelength, respectively. The signal lights are introduced into the input end 10a, amplified with the gain module 10 in a wide wavelength range where an optical fiber has a Raman amplification gain, and are emitted from the output end 10b.
摘要翻译：公开了增益模块和光通信系统，其具有在宽波长范围内的增益并且具有低成本。增益模块10具有两个光纤111和112，它们相对于它们各自的光波导区域的组成而彼此不同，并且串联连接。因为它们相对于它们各自的斯托克斯位移的量彼此不同，它们分别具有不同波长的增益。信号光被引入到输入端10a中，在宽的波长范围内用增益模块10放大，其中光纤具有拉曼放大增益，并从输出端10b发射。

8. 发明授权

US07586673B2 Optical gain waveguide and method of controlling the same 有权
标题翻译：光增益波导及其控制方法
公开(公告)号：US07586673B2
公开(公告)日：2009-09-08
申请号：US11365810
申请日：2006-03-02
申请人： Takahiro Murata , Motoki Kakui , Tetsuya Haruna
发明人： Takahiro Murata , Motoki Kakui , Tetsuya Haruna
IPC分类号： H01S3/00
CPC分类号： H01S3/094003 , H01S3/06716
摘要： The present invention relates to an optical gain waveguide having excellent gain flatness in C-band, and excellent tolerance against variations of a pumping light wavelength as well, and a method of controlling the same. The optical gain waveguide includes an optical waveguide region which is doped with Er element which can be pumped by irradiating pumping light with a wavelength of 976 nm or less, or a wavelength of 981 nm or more. A population inversion of Er is optimized so that a gain variation in the C-band becomes minimum, by the irradiation of the pumping light. At this time, a relative gain variation of the optical gain waveguide, which is defined by a peak gain value and a minimum gain value in the wavelength region of 1,530 nm to 1,560 nm becomes smaller than 11.5%. In addition, in the optical gain waveguide, a width of wavelength range producing the relative gain variation smaller than 11% is 36 nm or more.
摘要翻译：本发明涉及一种具有优异的C波段增益平坦度的光增益波导，以及对泵浦光波长变化的良好公差及其控制方法。光增益波导包括掺杂有Er元素的光波导区域，其可以通过照射波长976nm或更小或波长981nm或更大的泵浦光来泵浦。通过照射泵浦光来优化Er的群体反演，使得C波段的增益变化最小。此时，由1530nm至1,560nm的波长区域中的峰值增益值和最小增益值定义的光增益波导的相对增益变化小于11.5％。此外，在光增益波导中，产生小于11％的相对增益变化的波长范围的宽度为36nm以上。

9. 发明申请

US20060215254A1 Optical gain waveguide and method of controlling the same 有权
公开(公告)号：US20060215254A1
公开(公告)日：2006-09-28
申请号：US11365810
申请日：2006-03-02
申请人： Takahiro Murata , Motoki Kakui , Tetsuya Haruna
发明人： Takahiro Murata , Motoki Kakui , Tetsuya Haruna
IPC分类号： H01S3/00
CPC分类号： H01S3/094003 , H01S3/06716
摘要： The present invention relates to an optical gain waveguide having excellent gain flatness in C-band, and excellent tolerance against variations of a pumping light wavelength as well, and a method of controlling the same. The optical gain waveguide includes an optical waveguide region which is doped with Er element which can be pumped by irradiating pumping light with a wavelength of 976 nm or less, or a wavelength of 981 nm or more. A population inversion of Er is optimized so that a gain variation in the C-band becomes minimum, by the irradiation of the pumping light. At this time, a relative gain variation of the optical gain waveguide, which is defined by a peak gain value and a minimum gain value in the wavelength region of 1,530 nm to 1,560 nm becomes smaller than 11.5%. In addition, in the optical gain waveguide, a width of wavelength range producing the relative gain variation smaller than 11% is 36 nm or more.

10. 发明授权

US07940815B2 Fluorescent glass, optical waveguide, optical fiber, optical coherence tomography apparatus, and optical fiber laser 有权
标题翻译：荧光玻璃，光波导，光纤，光学相干断层摄影装置和光纤激光器
公开(公告)号：US07940815B2
公开(公告)日：2011-05-10
申请号：US11488902
申请日：2006-07-19
申请人： Motoki Kakui , Tetsuya Haruna , Takahiro Murata
发明人： Motoki Kakui , Tetsuya Haruna , Takahiro Murata
IPC分类号： H01S3/30
CPC分类号： C03C13/046 , C03B2201/30 , C03B2201/32 , C03B2205/42 , C03C3/06 , C03C4/12 , C03C2201/10 , C03C2201/32 , G01N21/4795 , H01S3/06716
摘要： The present invention relates to fluorescent glass which is easily put into practical use, and optical elements including the same. In one aspect, the fluorescent glass is comprised of silica-based glass containing Bi as a dopant, and adapted to generate fluorescence in response to pumping light in a wavelength band of 980 nm incident thereon. In another aspect, the fluorescent glass contains at least one species of transition metal as a dopant, and exhibits a 980-nm band absorption spectrum having a full width at half maximum exceeding 10 nm. In still another aspect, the fluorescent glass is comprised of silica-based glass containing at least one species of transition element as a dopant, and exhibits a fluorescence spectrum with a peak intensity fluctuating within a range of −1 dB or more but 1 dB or less with respect to pumping light having a fixed intensity in a state set to a temperature of −5° C. or more but 65° C. or less.
摘要翻译：本发明涉及容易投入实际使用的荧光玻璃以及包含该荧光玻璃的光学元件。在一个方面，荧光玻璃由含有Bi作为掺杂剂的二氧化硅基玻璃组成，并且适于响应入射到其上的980nm的波长带中的泵浦光产生荧光。在另一方面，荧光玻璃含有至少一种过渡金属作为掺杂剂，并且表现出具有半峰全宽超过10nm的980nm带吸收光谱。在另一方面，荧光玻璃由含有至少一种过渡元素作为掺杂剂的二氧化硅基玻璃构成，并且具有峰值强度在-1dB以上至1dB的范围内波动的荧光光谱，或相对于在设定为-5℃以上且65℃以下的温度的状态下抽送具有固定强度的光较少。

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