Optical adjustment apparatus, optical adjustment method, and optical device

What is claimed is: 1 . An optical adjustment apparatus for use in coupling a first optical fiber to an optical substrate being a coupling destination, the first optical fiber having an exit-side end portion, the optical substrate having a substrate-end surface, the optical adjustment apparatus comprising: a measurement-light irradiation part including a plurality of second optical fibers having exit-side end portions, the measurement-light irradiation part being configured to emit a plurality of lights with respective timings different from each other via the plurality of second optical fibers, the plurality of lights having a single wavelength; an optical fiber block configured to hold the exit-side end portion of the first optical fiber and the exit-side end portions of the plurality of second optical fibers, the optical fiber block having a block-end surface; a light detection part configured to receive and detect a plurality of reflected lights via the plurality of second optical fibers, the plurality of reflected lights being reflected off the substrate-end surface of the optical substrate and corresponding to the plurality of lights; a tilt calculation part configured to compare, with each other, variations with time of intensities of the plurality of respective reflected lights and to calculate a tilt of the optical fiber block relative to the optical substrate based on a result of the comparison of the variations with time; and a distance calculation part configured to calculate an inter-end surface distance between the substrate-end surface of the optical substrate and the block-end surface of the optical fiber block, based on a variation with time of an intensity of at least one of the plurality of reflected lights. 2 . The optical adjustment apparatus according to claim 1 , wherein the plurality of second optical fibers includes three optical fibers having respective exit-side end portions and being disposed to cause a plurality of lines inter-connecting the exit-side end portions of the three optical fibers to constitute a triangle. 3 . The optical adjustment apparatus according to claim 2 , wherein the plurality of second optical fibers has respective optical path lengths different from each other. 4 . The optical adjustment apparatus according to claim 3 , wherein the measurement-light irradiation part includes: a light source configured to emit light having the single wavelength; and an optical coupler configured to branch the light emitted from the light source into the plurality of lights having intensities identical to each other and to guide the plurality of lights to the plurality of respective second optical fibers. 5 . The optical adjustment apparatus according to claim 3 , wherein the tilt calculation part calculates tilt θx, around a first axis, of the optical fiber block relative to the optical substrate and tilt θy, around a second axis perpendicular to the first axis, of the optical fiber block relative to the optical substrate. 6 . The optical adjustment apparatus according to claim 1 , wherein the tilt calculation part calculates, based on the variations with time of a plurality of the intensities, integrated values of the plurality of the intensities corresponding respectively to the plurality of reflected lights and compares, with each other, the integrated values of the plurality of the intensities. 7 . The optical adjustment apparatus according to claim 1 , wherein the tilt calculation part compares, with each other, widths of a plurality of peaks in the variations with time of the plurality of the intensities, the plurality of peaks corresponding respectively to the plurality of reflected lights. 8 . The optical adjustment apparatus according to claim 1 , further comprising a tilt adjustment part configured to adjust, based on the tilt calculated, a relative attitude of the optical fiber block relative to the optical substrate. 9 . The optical adjustment apparatus according to claim 1 , further comprising a distance adjustment part configured to adjust a relative distance of the optical fiber block with respect to the optical substrate. 10 . The optical adjustment apparatus according to claim 1 , wherein the distance calculation part calculates the inter-end surface distance between the substrate-end surface of the optical substrate and the block-end surface of the optical fiber block, based on a difference between integrated values of different intensities of at least one of the plurality of reflected lights when the optical fiber block locates at different positions. 11 . The optical adjustment apparatus according to claim 1 , wherein the distance calculation part calculates the inter-end surface distance between the substrate-end surface of the optical substrate and the block-end surface of the optical fiber block, based on times that indicate different positions of a peak in a variation with time of an intensity of at least one of the plurality of reflected lights when the optical fiber block locates at different positions. 12 . An optical adjustment method for use in coupling a first optical fiber to an optical substrate being a coupling destination, the optical adjustment method comprising: holding, with an optical fiber block, an exit-side end portion of the first optical fiber and exit-side end portions of a plurality of second optical fibers for use in measurement; emitting, with respective timings different from each other, a plurality of lights having a single wavelength via the plurality of second optical fibers; receiving and detecting a plurality of reflected lights via the plurality of respective second optical fibers, the plurality of reflected lights being reflected off a substrate-end surface of the optical substrate and corresponding to the plurality of lights; comparing, with each other, variations with time of intensities of the plurality of respective reflected lights and calculating a tilt of the optical fiber block relative to the optical substrate based on a result of the comparison of the variations with time; and calculating an inter-end surface distance between the substrate-end surface of the optical substrate and a block-end surface of the optical fiber block, based on a variation with time of an intensity of at least one of the plurality of reflected lights. 13 . The optical adjustment method according to claim 12 , further comprising: adjusting, based on the tilt calculated, a relative attitude of the optical fiber block relative to the optical substrate; and adjusting, based on the inter-end surface distance calculated, a relative position of the optical fiber block relative to the optical substrate. 14 . An optical device, comprising: a first optical fiber; an optical substrate including a waveguide and being a coupling destination for the first optical fiber; and an optical fiber block fixed to the optical substrate, wherein the optical fiber block holds the first optical fiber and includes a plurality of through holes, a plurality of lines inter-connecting the plurality of through holes constituting a triangle. 15 . The optical device according to claim 14 , further comprising a plurality of second optical fibers inserted into the plurality of through holes.