Transmissive photonic crystal fiber ring resonator employing single optical beam-splitter

We claim: 1. A transmissive photonic crystal fiber ring resonator employing single optical beam-splitter, comprising: a first fiber-optic collimator, a second fiber-optic collimator, a first photonic crystal fiber collimator, a second photonic crystal fiber collimator, an optical beam-splitter, and a fixture, wherein the first fiber-optic collimator, the second fiber-optic collimator, the first photonic crystal fiber collimator, the second photonic crystal fiber collimator, and the optical beam-splitter are fixed on the fixture; fiber pigtails of the first fiber-optic collimator and the second fiber-optic collimator are the input/output ports; fiber pigtails of the first photonic crystal fiber collimator and the second photonic crystal fiber collimator are connected to each other; the first fiber-optic collimator and the first photonic crystal fiber collimator are placed at one side of the optical beam-splitter, and they are aligned according to the law of reflection of light; the second fiber-optic collimator and the second photonic crystal fiber collimator are placed at another side of the optical beam-splitter, and they are also aligned according to the law of reflection of light; the first photonic crystal fiber collimator, the second photonic crystal fiber collimator, and the optical beam-splitter are aligned according to the law of refraction of light and the law of rectilinear propagation of light. 2. The transmissive photonic crystal fiber ring resonator of claim 1 , wherein the said first fiber-optic collimator and the second fiber-optic collimator are both conventional fiber-optic collimators, each of which comprises a conventional optical fiber and a collimator lens group. 3. The transmissive photonic crystal fiber ring resonator of claim 2 , wherein the said conventional optical fiber refers to the kind of optical fiber whose core-index is higher than the cladding-index and whose way of lightwave guiding is based on the principle of total internal reflection. 4. The transmissive photonic crystal fiber ring resonator of claim 2 , wherein the said first photonic crystal fiber collimator and the second photonic crystal fiber collimator are both photonic crystal fiber collimators, each of which comprises a photonic crystal fiber and a collimator lens group. 5. The transmissive photonic crystal fiber ring resonator of claim 4 , wherein the said photonic crystal fiber refers to the kind of optical fiber whose cross-section has periodic micro-structures. 6. The transmissive photonic crystal fiber ring resonator of claim 2 , wherein the said collimator lens group refers to the kind of optical element that comprises one lens or more and can collimate or collect light beam. 7. The transmissive photonic crystal fiber ring resonator of claim 1 , wherein the said optical beam-splitter is an optical dielectric plate, whose two interfaces are coated or uncoated. 8. The transmissive photonic crystal fiber ring resonator of claim 1 , wherein the angles between the said optical beam-splitter and the working axes of the first fiber-optic collimator, the second fiber-optic collimator, the first photonic crystal fiber collimator and the second photonic crystal fiber collimator are equal, which is represented by θ (0°<θ<90°). 9. The transmissive photonic crystal fiber ring resonator of claim 4 , wherein the said collimator lens group refers to the kind of optical element that comprises one lens or more and can collimate or collect light beam.