Patents by Inventor Seiki Ejima
Seiki Ejima has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20050100306Abstract: There is disclosed a method for producing a base material for optical fiber having a deformed first clad consisting of at least a core, a first clad and a second clad, comprising a step of deforming a shape of a section of the first clad so that it may have at least one linear part when the first clad is formed around the core, a step of depositing porous glass fine particles as the second clad made of the same material as that of the first clad on a glass rod having the deformed first clad to form a porous glass base material, and a step of forming the second clad having a round section by vitrifying it. There can be provided a method for producing a base material for optical fiber wherein a lot of breakages or cracks on the surface of the base material can be prevented in a step of depositing porous glass fine particles for the second clad on the first clad, and base material for optical fiber having no defects, and an optical fiber having an efficient effect of being excited with excitation light.Type: ApplicationFiled: July 28, 2003Publication date: May 12, 2005Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Publication number: 20040184979Abstract: A method for manufacturing a synthesized silica glass optical member, the method comprising: providing a porous silica glass body; heating the porous' silica glass body in an atmosphere containing hydrogen or oxygen, and sintering the porous silica glass body in an atmosphere containing fluorine compound. Furthermore, a synthesized silica glass optical member manufactured by the method.Type: ApplicationFiled: December 31, 2003Publication date: September 23, 2004Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Publication number: 20040148968Abstract: A method for manufacturing a synthesized silica glass optical member, the method comprising: providing a porous silica glass body; heating the porous silica glass body in an atmosphere containing hydrogen or oxygen, and sintering the porous silica glass body in an atmosphere containing fluorine compound. Furthermore, a synthesized silica glass optical member manufactured by the method.Type: ApplicationFiled: December 31, 2003Publication date: August 5, 2004Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Nonuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Patent number: 6701752Abstract: A method for manufacturing a synthesized silica glass optical member, the method comprising: providing a porous silica glass body; heating the porous silica glass body in an atmosphere containing hydrogen or oxygen, and sintering the porous silica glass body in an atmosphere containing fluorine compound. Furthermore, a synthesized silica glass optical member manufactured by the method.Type: GrantFiled: March 5, 2001Date of Patent: March 9, 2004Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Patent number: 6681074Abstract: There is disclosed a method for producing a base material for optical fiber having a deformed first clad consisting of at least a core, a first clad and a second clad, comprising a step of deforming a shape of a section of the first clad so that it may have at least one linear part when the first clad is formed around the core, a step of depositing porous glass fine particles as the second clad made of the same material as that of the first clad on a glass rod having the deformed first clad to form a porous glass base material, and a step of forming the second clad having a round section by vitrifying it. There can be provided a method for producing a base material for optical fiber wherein a lot of breakages or cracks on the surface of the base material can be prevented in a step of depositing porous glass fine particles for the second clad on the first clad, and base material for optical fiber having no defects, and an optical fiber having an efficient effect of being excited with excitation light.Type: GrantFiled: September 26, 2000Date of Patent: January 20, 2004Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Patent number: 6615614Abstract: An optical waveguide substrate is prepared by forming grooves in a silicon substrate in accordance with the pattern of a desired waveguide device, thermally oxidizing the silicon substrate to form a peripheral quartz layer surrounding the grooves, burying in the grooves a doped quartz glass layer having a higher refractive index, abrading the surface of the resulting structure to be flat, and forming on the flat surface a glass layer having a lower refractive index. An optical waveguide substrate featuring no distortion of the core pattern, little warp, and a low loss can be produced in a simple manner.Type: GrantFiled: July 6, 2000Date of Patent: September 9, 2003Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Shinji Makikawa, Shigeru Konishi, Seiki Ejima
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Patent number: 6564585Abstract: There is disclosed second-order nonlinear glass material wherein a part having second-order nonlinearity contains Ge, H and OH and has second-order nonlinear optical constant d of 1 pm/V or more, and a method for producing second-order nonlinear glass material comprising treating a porous glass material containing Ge with hydrogen, sintering it and subjecting it to a ultraviolet poling treatment. There can be provided second-order nonlinear glass material having second-order nonlinearity which is a sufficiently high and has a sufficiently long lifetime for a practical purpose, in use of the glass material for optical functional elements or the like.Type: GrantFiled: May 9, 2001Date of Patent: May 20, 2003Assignees: Shin-Etsu Chemical Co., Ltd., Toyota Technological InstituteInventors: Jun Abe, Seiki Ejima, Akira J. Ikushima, Takumi Fujiwara
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Patent number: 6436728Abstract: A method of making a high quality optical waveguide substrate is provided, in which the surface of a silicon substrate is oxidized through relatively large thickness and no foreign matter particles are adhered on the surface thereof. The silicon substrate to form a quartz film for the optical waveguide is mounted on a carbon contained ceramics sample base and is inserted into a carbon contained ceramics furnace core tube of which its external circumference is arranged in a heating furnace. When the inside of the furnace core tube is heated to 200 to 600° C. by the heating furnace, an oxidant gas for the silicon substrate surface is introduced, then by further heating up to 1200 to 1350° C., the silicon surface is thus oxidized.Type: GrantFiled: April 18, 2001Date of Patent: August 20, 2002Assignee: Shin-Etsu Chemical Co., LtdInventors: Shinji Makikawa, Hiroshi Aoi, Masaaki Shirota, Seiki Ejima
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Patent number: 6402973Abstract: A silicon substrate is prepared by furnishing a silicon substrate (10) having a step (11) of at least 5 &mgr;m high on one surface, forming by high pressure heat oxidation an oxide film (12) which is thinner than the step, and removing the oxide film on the higher surface region until the silicon surface is exposed in the higher surface region while leaving the oxide film on the lower surface region. Because of excellent electrical properties, minimized warpage, a substantially constant oxygen concentration, and a definitely ascertainable oxide-silicon boundary, the silicon substrate is suitable for use in optical waveguide devices.Type: GrantFiled: July 27, 2000Date of Patent: June 11, 2002Assignees: NTT Electronics Corp., Shin-Etsu Chemical Co., Ltd.Inventors: Yasushi Maeda, Masaharu Horiguchi, Shinji Makikawa, Seiki Ejima
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Patent number: 6380109Abstract: There is disclosed second-order nonlinear glass material wherein a part having second-order nonlinearity contain Ge, H and OH and second-order nonlinear optical constant d of 1 pm/V or more, and a method for producing second-order nonliner glass material comprising treating a porous class material containing Ge with hydrohen, sintering it and subjecting it to a ultraviolet poling treatment. There can be provided second-order nonlinger glass material having second-order nonlinearity which is a sufficiently high and has a sufficiently long lifetime for a practical purpose, in use of the glass material for optical elements or the like.Type: GrantFiled: February 23, 2000Date of Patent: April 30, 2002Assignees: Shin-Etsu Chemical Co., Ltd., Toyota Tecnological InstituteInventors: Jun Abe, Seiki Ejima, Akira J. Ikushima, Takumi Fujiwara
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Publication number: 20020020194Abstract: An optical waveguide substrate, which has less particles or concave pits caused by Oxidation Induced Stacking Fault on the quartz film when oxidizing the surface of the silicon substrate relatively thickly and forming on its surface a quartz film to become an optical waveguide, is manufactured. The making method of the optical waveguide substrate comprises a step of exposing a silicon substrate to an atmosphere of oxidizing gas while heating to form a quartz film on the surface thereof for an optical waveguide, characterized in that a density of Oxygen contained in said silicon substrate is 24 ppma at maximum.Type: ApplicationFiled: May 29, 2001Publication date: February 21, 2002Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Shinji Makikawa, Hiroshi Aoi, Masaaki Shirota, Seiki Ejima
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Publication number: 20010036349Abstract: A method for manufacturing a glass base material, which is a base material of an optical fiber, comprising: forming a core of the glass base material; forming the core includes: accumulating glass particles on a starting rod to form a porous glass soot; sintering the porous glass soot in an atmosphere of mixed gas that contains fluorine-compound gas to form a GI type refractive index profile, the refractive index of which gradually decreases with a distance from a center of the core; and forming a clad of the glass base material around the core.Type: ApplicationFiled: January 29, 2001Publication date: November 1, 2001Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Publication number: 20010034074Abstract: A method of making a high quality optical waveguide substrate is provided, in which the surface of a silicon substrate is oxidized through relatively large thickness and no foreign matter particles are adhered on the surface thereof. The silicon substrate to form a quartz film for the optical waveguide is mounted on a carbon contained ceramics sample base and is inserted into a carbon contained ceramics furnace core tube of which its external circumference is arranged in a heating furnace. When the inside of the furnace core tube is heated to 200 to 600° C. by the heating furnace, an oxidant gas for the silicon substrate surface is introduced, then by further heating up to 1200 to 1350° C., the silicon surface is thus oxidized.Type: ApplicationFiled: April 18, 2001Publication date: October 25, 2001Inventors: Shinji Makikawa, Hiroshi Aoi, Masaaki Shirota, Seiki Ejima
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Patent number: 6301412Abstract: A mask having a center hole for passing through a center fiber, which is one of multiple fibers, and multiple surrounding holes for passing through surrounding fibers, which are the remainder of the multiple fibers, and a stress adjusting unit for holding stresses generated in the center fiber and surrounding fibers to a desired constant value, respectively, are installed. The surrounding fibers are rotated around the center fiber by rotating the mask. The center fiber and the surrounding fibers that have been twisted around the center fiber are heated with a heating apparatus and drawn. The center fiber and the surrounding fibers are fixed using a clamp installed between the stress adjusting unit and the heating apparatus.Type: GrantFiled: June 29, 1998Date of Patent: October 9, 2001Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Tsuneo Mori, Masaaki Shirota, Seiki Ejima, Jun Abe, Sayuri Maeda, Kazuo Koya
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Silicon surface oxidation device and method of fabricating optical waveguide substrate by the device
Publication number: 20010022094Abstract: A silicon surface oxidation device utilizes a steam generator in which heated water is barely in contact with the members of the device, steam with no contamination is efficiently generated, and the silicon surface can be oxidized through relatively large thickness by using a steam oxidation method which is simple and high in safety. The steam generator has a feed port for pure water which flows along a surface in a chamber, an oscillator for oscillating a microwave toward the surface, a steam exit port for sending out the steam of the pure water generated from the surface by the microwave, and a discharge port for the pure water flowing along the surface. A heating furnace is connected to the steam exit port, and silicon placed in the heating furnace is oxidized by the steam generated by the microwave.Type: ApplicationFiled: March 15, 2001Publication date: September 20, 2001Inventors: Shinji Makikawa, Masaaki Shirota, Seiki Ejima, Hiroshi Aoi, Tadatomo Ohnoda -
Publication number: 20010018835Abstract: A method for manufacturing a synthesized silica glass optical member, the method comprising: providing a porous silica glass body; heating the porous silica glass body in an atmosphere containing hydrogen or oxygen, and sintering the porous silica glass body in an atmosphere containing fluorine compound. Furthermore, a synthesized silica glass optical member manufactured by the method.Type: ApplicationFiled: March 3, 2001Publication date: September 6, 2001Inventors: Jun Abe, Nobuyasu Mantoku, Shinji Makikawa, Seiki Ejima
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Publication number: 20010019991Abstract: There is disclosed second-order nonlinear glass material wherein a part having second-order nonlinearity contains Ge, H and OH and has second-order nonlinear optical constant d of 1 pm/V or more, and a method for producing second-order nonlinear glass material comprising treating a porous glass material containing Ge with hydrogen, sintering it and subjecting it to a ultraviolet poling treatment. There can be provided second-order nonlinear glass material having second-order nonlinearity which is a sufficiently high and has a sufficiently long lifetime for a practical purpose, in use of the glass material for optical functional elements or the like.Type: ApplicationFiled: May 9, 2001Publication date: September 6, 2001Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Jun Abe, Seiki Ejima, Akira J. Ikushima, Takumi Fujiwara
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Publication number: 20010002219Abstract: A multi-branching optical coupler outputs input light by branching the input light into multiple fibers. This multi-branching optical coupler has a center fiber positioned at the center of the multiple fibers and multiple surrounding fibers installed around the circumference of the center fiber such that the distance between any two adjacent surrounding fibers is substantially constant. The light input to the input end of the center fiber is branched into the output end of the center fiber and the surrounding fibers. The center fiber has a core that extends from the input end to the output end, and a clad formed around the core. The totality of fibers has a coupled region in which all of the surrounding fibers are fused to the center fiber. The center fiber and the surrounding fibers may be installed substantially parallel to each other and linearly. As an alternative, the surrounding fibers may be twisted co-axially about the center fiber.Type: ApplicationFiled: December 28, 2000Publication date: May 31, 2001Applicant: Shin-Etsu Chemical Co., Ltd.Inventors: Tsuneo Mori, Masaaki Shirota, Kazuo Koya, Sayuri Maeda, Seiki Ejima