Patent application number | Description | Published |
20110132037 | HOLE DIAMETER MEASURING METHOD AND DEVICE FOR HOLEY OPTICAL FIBER, AND MANUFACTURING METHOD AND DEVICE FOR HOLEY OPTICAL FIBER - A hole diameter measuring method for a holey optical fiber of the present invention is a hole diameter measuring method for a holey optical fiber having: continuously irradiating a side of a holey optical fiber bare wire with parallel light rays, the holey optical fiber bare wire obtained by drawing an optical fiber base material; continuously detecting, with a detecting portion, forward scattering light that is generated by the irradiation of the holey optical fiber bare wire with the parallel light rays; and calculating a diameter of at least one hole in the holey optical fiber bare wire using a correlation relationship between a scattering intensity pattern of the detected forward scattering light and the diameter of the at least one hole. | 06-09-2011 |
20120042696 | MEASURING METHOD OF LONGITUDINAL DISTRIBUTION OF BENDING LOSS OF OPTICAL FIBER, MEASURING METHOD OF LONGITUDINAL DISTRIBUTION OF ACTUAL BENDING LOSS VALUE OF OPTICAL FIBER, TEST METHOD OF OPTICAL LINE, MANUFACTURING METHOD OF OPTICAL FIBER CABLE, MANUFACTURING METHOD OF OPTICAL FIBER CORD, AND MANUFACTURING METHOD OF OPTICAL FIBER - A measuring method of a longitudinal distribution of bending loss of an optical fiber includes calculating an arithmetical mean value I(x) from two backscattering light intensities of two backscattering light at a position x obtained by bidirectional OTDR measurement of the optical fiber; and obtaining a bending loss value at the position x from a mode field diameter 2W(x) and a relative refractive index difference Δ(x) at the position x calculated from the arithmetical mean value. | 02-23-2012 |
20120044482 | MEASURING METHOD OF HOLE DIAMETER, HOLE POSITION, HOLE SURFACE ROUGHNESS, OR BENDING LOSS OF HOLEY OPTICAL FIBER, MANUFACTURING METHOD OF HOLEY OPTICAL FIBER, AND TEST METHOD OF OPTICAL LINE OF HOLEY OPTICAL FIBER - A measuring method of a hole diameter of a holey optical fiber includes calculating an arithmetical mean value I(x) from two backscattering light intensities at a position x of two backscattering light waveforms of the holey optical fiber, in which the two backscattering light waveforms are obtained by OTDR measurement; and obtaining the hole diameter at the position x, based on a correlation between an arithmetical mean value I(x) and an hole diameter of the holey optical fiber that is obtained in advance. | 02-23-2012 |
20130027689 | INSPECTING DEVICE, INSPECTING METHOD, AND METHOD FOR MANUFACTURING OPTICAL FIBER - A detector sequentially detects intensity distribution of transmitted light which is transmitted through a center portion of a preform. A determining section determines at least one of a position of a through hole and a size thereof on the basis of a time series of a feature value in the intensity distribution. | 01-31-2013 |
20130333421 | PROCESS FOR PRODUCING OPTICAL FIBER AND PROCESSING APPARATUS FOR OPTICAL FIBER WORK USED FOR THE SAME - Provided is a process for producing an optical fiber including a processing process where an optical fiber work made of a glass is held by a processing apparatus for an optical fiber work to be heated and processed, wherein in the processing process, vibration caused by an abnormality of the optical fiber work in the heated state or vibration caused by an abnormality of a glass body which is a portion of the processing apparatus for an optical fiber work and is in the state where the glass body portion is heated due to the heating of the optical fiber work is detected by using an acoustic emission sensor. | 12-19-2013 |
20140003807 | CROSSTALK MEASURING METHOD AND CROSSTALK MEASURING DEVICE | 01-02-2014 |
20140216109 | METHOD OF MANUFACTURING PREFORM FOR MULTICORE FIBER AND METHOD OF MANUFACTURING MULTICORE FIBER - A plurality of clad rods, and a clad tube, an arrangement process for arranging the plurality of core rods and the plurality of clad rods in a tube of the clad tube, in a state in which distances between center axes of the adjacent core rods become equal to each other and a state in which parts of outer circumferential surfaces in the adjacent rods contact, and an integration process for integrating the clad tube and the plurality of core rods and the plurality of clad rods arranged in the tube, wherein a ratio of a total cross-sectional area of a direction orthogonal to a length direction in the plurality of core rods and the plurality of clad rods with respect to an internal cross-sectional area of the tube of a direction orthogonal to a length direction in the clad tube is 0.84 or more. | 08-07-2014 |
20150139596 | MULTICORE FIBER AND METHOD OF MANUFACTURE OF THE SAME - A multicore fiber includes a plurality of cores and a cladding that encloses the plurality of the cores. The plurality of the cores is arranged and disposed on a linear line passed through the center of the cladding. A difference in the cutoff wavelength between an outer core located at the outermost position and an inner core located next to the outer core is set at a wavelength of 100 nm or less. | 05-21-2015 |
20150139597 | MULTICORE FIBER - A multicore fiber includes a plurality of cores and a cladding surrounding the plurality of cores. The plurality of cores is arranged and disposed on a linear line passed through the center of the cladding. A pair of cores is included. The pair of the cores is located adjacent to each other, and has different core diameters in a first direction in which the plurality of cores is arranged on the linear line. A ratio of a core diameter in the first direction to a core diameter in a second direction orthogonal to the first direction is different between the pair of the cores. | 05-21-2015 |