Patent Number: 
Section: claims

1. A terahertz wave generation device for generating terahertz waves in a direction satisfying non-collinear phase matching conditions by projecting ultra-short pulse laser light on a non-linear optical crystal, the terahertz wave generation device comprising:a pulse light source for generating the ultra-short pulse laser light; andan irradiation unit for discretely irradiating the ultra-short pulse laser light generated by the pulse light source on terahertz wave transmission line in the non-linear optical crystal so that the ultra-short pulse laser light is in synchronous with transmission of the terahertz wave; whereinthe irradiation unit comprises a plurality of optical fibers for receiving and transmitting the ultra-short pulse laser light generated by the pulse light source and projecting such toward the terahertz wave transmission line of the non-linear optical crystal so that the ultra-short pulse laser light is in synchronous with transmission of the terahertz wave;the optical fibers have mutually differing optical path lengths;the irradiation unit further comprises a light distributor for splitting the ultra-short pulse laser light generated by the pulse light source into a plurality of ultra-short pulse laser lights and transmitting such to the plurality of optical fibers;the irradiation unit further comprises a length adjustment mechanism for adjusting the optical path lengths of the optical fibers; andthe length adjustment mechanism comprises drums around which the optical fibers are wound, and a tension changing unit for changing the tension of the optical fibers in a lengthwise direction by changing the diameter of the drums. 2. The terahertz wave generation device according to claim 1, wherein the pulse light source is provided for each optical fiber. 3. The terahertz wave generation device according to claim 2, wherein each pulse light source comprises a timing adjustment mechanism for adjusting the generation timing of the ultra-short pulse laser light. 4. The terahertz wave generation device according to claim 3, wherein at the projection unit of each of the transmission paths, a lens is provided for making desired values of the incident angle on the non-linear optical crystal and the spacing of arrival positions on the terahertz wave transmission line in the non-linear optical crystal of the ultra-short pulse laser light projected from the projection units. 5. A terahertz wave generation device for generating terahertz waves in a direction satisfying non-collinear phase matching conditions by projecting ultra-short pulse laser light on a non-linear optical crystal, the terahertz wave generation device comprising:a pulse light source for generating the ultra-short pulse laser light; andan irradiation unit for discretely irradiating the ultra-short pulse laser light generated by the pulse light source on terahertz wave transmission line in the non-linear optical crystal so that the ultra-short pulse laser light is in synchronous with transmission of the terahertz wave; whereinthe irradiation unit comprises a multi-core fiber having a plurality of cores connected to respective optical fibers as transmission paths for receiving and transmitting the ultra-short pulse laser light generated by the pulse light source and projecting such toward the terahertz wave transmission line of the non-linear optical crystal so that the ultra-short pulse laser light is in synchronous with transmission of the terahertz wave;the plurality of cores have mutually differing optical path lengths;the irradiation unit further comprises a length adjustment mechanism for adjusting the optical path lengths of the optical fibers; andthe length adjustment mechanism comprises drums around which the optical fibers are wound, and a tension changing unit for changing the tension of the optical fibers in a lengthwise direction by changing the diameter of the drums. 6. The terahertz wave generation device according to claim 5, wherein projection units of the plurality of cores are positioned parallel to the direction of the terahertz wave transmission line; andthe end surface composed of the projection units of the plurality of cores is shaped so as to have a predetermined angle, and the optical path lengths of the cores are longer toward one side in a direction parallel to the projection units. 7. The terahertz wave generation device according to claim 6, wherein the pulse light source is provided for each of the cores. 8. The terahertz wave generation device according to claim 7, wherein each pulse light source comprises a timing adjustment mechanism for adjusting the generation timing of the ultra-short pulse laser light. 9. The terahertz wave generation device according to claim 8, wherein at the projection unit of each of the transmission paths, a lens is provided for making desired values of the incident angle on the non-linear optical crystal and the spacing of arrival positions on the terahertz wave transmission line in the non-linear optical crystal of the ultra-short pulse laser light projected from the projection units. 10. A method for generating terahertz waves in a direction satisfying non-collinear phase matching conditions by making ultra-short pulse laser light incident on a non-linear optical crystal, the method comprising:a step of irradiating a pulse laser light group having a discrete wave surface composed of a plurality of ultra-short pulse laser lights of a single repeating frequency toward the non-linear optical crystal; anda step of transmitting the ultra-short pulse laser lights of the pulse laser light group to successively shifted positions on the terahertz wave transmission line so that such arrive with a time difference; whereinthe pulse laser light group is composed by the ultra-short pulse laser lights being transmitted via transmission paths comprising optical fibers and being projected from projection units of the transmission paths toward the non-linear optical crystal;the shift in arrival positions of the ultra-short pulse laser lights on the transmission line is created by the projection units being parallel in one direction; andthe difference in arrival times of the ultra-short pulse laser lights on the transmission line is created by the optical path lengths of the transmission paths being longer toward one side of the parallel direction of the projection units; andthe terahertz wave generating method further comprising a step of adjusting the optical path lengths of the optical fibers with a length adjustment mechanism; whereinthe length adjustment mechanism comprises drums around which the optical fibers are wound, and a tension changing unit for changing the tension of the optical fibers in a lengthwise direction by changing the diameter of the drums.