Electrophoretic device, electrophoretic display apparatus, electronic apparatus, and method of manufacturing electrophoretic device

What is claimed is: 1. An electrophoretic device, comprising: a fiber layer comprising a plurality of fibers, wherein the fiber layer is sandwiched between a translucent layer and an opposed layer, wherein the fiber layer includes a resin fiber which holds a plurality of non-electrophoretic particles that reflect light, wherein the plurality of non-electrophoretic particles are dispersed in the resin fiber, and wherein a distance between a first non-electrophoretic particle of the plurality of non-electrophoretic particles in the resin fiber and a second non-electrophoretic particle of the plurality of non-electrophoretic particles is shorter than a wavelength of visible light; an electrophoretic particle configured to migrate through a gap in the fiber layer; and a partition wall of a curable resin, wherein the partition wall extends in a thickness direction of the fiber layer to separate the fiber layer into a plurality of migration cells, wherein the partition wall is in contact with the translucent layer and with the opposed layer, and wherein the partition wall is tapered along the thickness direction of the fiber layer and has a constriction between the translucent layer and the opposed layer. 2. The electrophoretic device according to claim 1 , wherein the translucent layer is configured to pass light, wherein the opposed layer is configured to sandwich the fiber layer with an insulating liquid, and wherein the constriction is closer to the translucent layer than the opposed layer. 3. The electrophoretic device according to claim 1 , wherein the translucent layer is configured to pass light, wherein the opposed layer is configured to sandwich the fiber layer with an insulating liquid, and wherein a width of a first contact part of the partition wall and the translucent layer is smaller than a width of a second contact part of the partition wall and the opposed layer. 4. The electrophoretic device according to claim 1 , wherein the translucent layer is configured to pass light, wherein the opposed layer is configured to sandwich the fiber layer with an insulating liquid, and wherein the partition wall is tapered from the translucent layer toward the constriction and from the opposed layer toward the constriction. 5. The electrophoretic device according to claim 1 , wherein the curable resin is a light curable resin. 6. The electrophoretic device according to claim 1 , wherein the fiber layer is porous. 7. The electrophoretic device according to claim 1 , wherein the partition wall has a honeycomb structure. 8. The electrophoretic device according to claim 1 , wherein the partition wall further includes a material having a first optical characteristic, and wherein the plurality of fibers have the first optical characteristic. 9. The electrophoretic device according to claim 1 , wherein the translucent layer is configured to pass light, wherein the opposed layer is configured to sandwich the fiber layer with an insulating liquid, wherein the partition wall is tapered from the translucent layer toward the constriction and from the opposed layer toward the constriction, and wherein a width of the partition wall is increased toward the translucent layer and the opposed layer from the constriction. 10. The electrophoretic device according to claim 1 , wherein a first ratio of a width of a first contact part of the partition wall with the translucent layer and a thickness of the partition wall from the first contact part with the translucent layer to the constriction is equal to a second ratio of a width of a second contact part of the partition wall with the opposed layer and the thickness of the partition wall from the second contact part with the opposed layer to the constriction. 11. An electrophoretic display apparatus, comprising: a drive device configured to cause an electrophoretic particle to migrate; and an electrophoretic device including the electrophoretic particle, wherein the electrophoretic device includes: a fiber layer comprising a plurality of fibers, wherein the fiber layer is sandwiched between a translucent layer and an opposed layer, wherein the fiber layer includes a resin fiber which holds a plurality of non-electrophoretic particles that reflect light, wherein the plurality of non-electrophoretic particles are dispersed in the resin fiber, and wherein a distance between a first non-electrophoretic particle of the plurality of non-electrophoretic particles in the resin fiber and a second non-electrophoretic particle of the plurality of non-electrophoretic particles is shorter than a wavelength of visible light, the electrophoretic particle configured to migrate through a gap in the fiber layer, and a partition wall of a curable resin, wherein the partition wall extends in a thickness direction of the fiber layer to separate the fiber layer into a plurality of migration cells, wherein the partition wall is in contact with the translucent layer and with the opposed layer, and wherein the partition wall is tapered along the thickness direction of the fiber layer and has a constriction between the translucent layer and the opposed layer. 12. An electronic apparatus, comprising: a drive device configured to cause an electrophoretic particle to migrate; and a display unit with an electrophoretic device including the electrophoretic particle, wherein the electrophoretic device includes: a fiber layer comprising a plurality of fibers, wherein the fiber layer is sandwiched between a translucent layer and an opposed layer, wherein the fiber layer includes a resin fiber which holds a plurality of non-electrophoretic particles that reflect light, wherein the plurality of non-electrophoretic particles are dispersed in the resin fiber, and wherein a distance between a first non-electrophoretic particle of the plurality of non-electrophoretic particles in the resin fiber and a second non-electrophoretic particle of the plurality of non-electrophoretic particles is shorter than a wavelength of visible light, the electrophoretic particle configured to migrate through a gap in the fiber layer, and a partition wall of a curable resin, wherein the partition wall extends in a thickness direction of the fiber layer to separate the fiber layer into a plurality of migration cells, wherein the partition wall is in contact with the translucent layer and with the opposed layer, and wherein the partition wall is tapered along the thickness direction of the fiber layer and has a constriction between the translucent layer and the opposed layer. 13. A method of manufacturing an electrophoretic device, comprising: filling a gap in a fiber layer with a curable resin, wherein the fiber layer comprises a plurality of fibers, and wherein the fiber layer is sandwiched between a translucent layer and an opposed layer; wherein the fiber layer includes a resin fiber which holds a plurality of non-electrophoretic particles that reflect light, wherein the plurality of non-electrophoretic particles are dispersed in the resin fiber, and wherein a distance between a first non-electrophoretic particle of the plurality of non-electrophoretic particles in the resin fiber and a second non-electrophoretic particle of the plurality of non-electrophoretic particles is shorter than a wavelength of visible light, curing the curable resin from both sides of the fiber layer in a thickness direction and forming, in the fiber layer, a partition wall; and causing an electrophoretic particle to be included in the gap in the fiber layer, wherein the partition wall is in contact with the translucent layer and with the opposed layer,