Optical fiber coupled photonic crystal slab strain sensor, system and method of fabrication and use

What is claimed is: 1 . A photonic crystal strain sensor, comprising: an optical fiber having a first end and a second end; and at least one pair of photonic crystal lattices disposed within the optical fiber between the first end and the second end of the optical fiber and wherein a first photonic crystal lattice of the at least one pair is separated from a second photonic crystal lattice of the at least one pair by a segment of the optical fiber, wherein each of the at least one pair of photonic crystal lattices includes a plurality of holes extending from a first surface to a second surface of the respective photonic crystal lattice, wherein the first surface and the second surface of each of the at least one pair of photonic crystal lattices are arranged to be orthogonal or substantially orthogonal to an optical axis of the optical fiber. 2 . The photonic crystal strain sensor according to claim 1 , where the optical fiber and the segment of the optical fiber further comprise fused silica communication grade fiber. 3 . The photonic crystal strain sensor according to claim 1 , where each of the plurality of holes has a diameter between 0.25 μm to 1.0 μm, and where each of the at least one pair of photonic crystal lattices has a thickness between 400 μm to 500 μm. 4 . The photonic crystal strain sensor according to claim 1 , where the at least one pair of photonic crystal lattices form a Fabry-Perot (etalon) Interferometer. 5 . The photonic crystal strain sensor according to claim 1 , where the optical fiber further comprises a central core surrounding by cladding, where the at least one pair of photonic crystal lattices are disposed to interfere with a substantial portion of the central core of the optical fiber. 6 . The photonic crystal strain sensor according to claim 1 , further comprising a plurality of pairs of photonic crystal lattices disposed between corresponding segments of the optical fiber. 7 . A photonic crystal strain sensor, comprising: an optical fiber having a first end and a second end; and at least one pair of photonic crystal lattices disposed within the optical fiber between the first end and the second end of the optical fiber and wherein a first photonic crystal lattice of the at least one pair is separated from a second photonic crystal lattice of the at least one pair by a segment of the optical fiber, wherein each of the at least one pair of photonic crystal lattices includes a plurality of optical beads extending from a first surface to a second surface of the respective photonic crystal lattice, wherein the first surface and the second surface of each of the at least one pair of photonic crystal lattices are arranged to be orthogonal or substantially orthogonal to an optical axis of the optical fiber. 8 . The photonic crystal strain sensor according to claim 7 , where the optical fiber and the segment of the optical fiber further comprise fused silica communication grade fiber. 9 . The photonic crystal strain sensor according to claim 7 , where each of the plurality of optical beads has a diameter between 0.25 μm to 1.0 μm, and where each of the at least one pair of photonic crystal lattices has a thickness between 400 μm to 500 μm. 10 . The photonic crystal strain sensor according to claim 7 , where the at least one pair of photonic crystal lattices form a Fabry-Perot (etalon) Interferometer. 11 . The photonic crystal strain sensor according to claim 7 , where the optical fiber further comprises a central core surrounding by cladding, where the at least one pair of photonic crystal lattices are disposed to interfere with a substantial portion of the central core of the optical fiber. 12 . The photonic crystal strain sensor according to claim 7 , further comprising a plurality of pairs of photonic crystal lattices disposed between corresponding segments of the optical fiber. 13 . A photonic crystal strain sensor, comprising: an optical fiber having a first end and a second end; and at least one pair of photonic crystal slabs disposed within the optical fiber between the first end and the second end of the optical fiber and wherein a first photonic crystal lattice of the at least one pair is separated from a second photonic crystal lattice of the at least one pair by a segment of the optical fiber, wherein each of the at least one pair of photonic crystal lattices includes a lattice of holes extending from a first surface to a second surface of the respective photonic crystal lattice, wherein the first surface and the second surface of each of the at least one pair of photonic crystal lattices are arranged to be orthogonal or substantially orthogonal to an optical axis of the optical fiber. 14 . The photonic crystal strain sensor according to claim 13 , where the optical fiber and the segment of the optical fiber further comprise fused silica communication grade fiber. 15 . The photonic crystal strain sensor according to claim 13 , where each of the plurality of holes has a diameter between 0.25 μm to 1.0 μm, and where each of the at least one pair of photonic crystal lattices has a thickness between 400 μm to 500 μm. 16 . The photonic crystal strain sensor according to claim 13 , where the at least one pair of photonic crystal lattices form a Fabry-Perot (etalon) Interferometer. 17 . The photonic crystal strain sensor according to claim 13 , where the optical fiber further comprises a central core surrounding by cladding, where the at least one pair of photonic crystal lattices are disposed to interfere with a substantial portion of the central core of the optical fiber. 18 . The photonic crystal strain sensor according to claim 13 , further comprising a plurality of pairs of photonic crystal lattices disposed between corresponding segments of the optical fiber.