Microwave excitation light-source device

The invention claimed is: 1. A microwave excitation light-source device, comprising: a center conductor extending in an axis direction; an annular conductor having light transparency and disposed concentrically with respect to the center conductor; an arc tube in which a luminescent material is enclosed, said arc tube being disposed so as to extend along the axis direction in an annular space created between the center conductor and the annular conductor; and a support unit that supports the center conductor, the annular conductor and the arc tube and in which electrical connection paths for applying microwaves to the center conductor and the annular conductor are formed; wherein the arc tube is configured so that, in a plane that is perpendicular to the axis direction, a single closed curve drawn along a tube wall of the arc tube intersects zero or even number of times, every line drawn from the center conductor toward the annular conductor. 2. The microwave excitation light-source device as set forth in claim 1 , wherein a shape of the arc tube in cross-section perpendicular to the axis direction is a sector form that catches the center conductor at a center angle portion of that shape. 3. The microwave excitation light-source device as set forth in claim 2 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein one of following conditions is satisfied: with respect to the center conductor, its part corresponding to a region where the arc tube is not disposed, is smaller in radius than its part corresponding to the region where the arc tube is disposed; and with respect to the annular conductor, its part corresponding to the region where the arc tube is not disposed, is larger in radius than its part corresponding to the region where the arc tube is disposed. 4. The microwave excitation light-source device as set forth in claim 2 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein a part of the annular conductor corresponding to a region where the arc tube is not disposed, is composed of a reflective member that reflects light. 5. The microwave excitation light-source device as set forth in claim 4 , further comprising a semiconductor amplifier as a generation source of the microwaves, wherein, with respect to the reflective member, its one end is connected to the semiconductor amplifier and, on its radially outer side, a heat dissipation fin that dissipates heat generated in the semiconductor amplifier is formed. 6. The microwave excitation light-source device as set forth in claim 1 , comprising arc tubes each being said arc tube, which are composed of multiple straight tubes that extend in the axis direction and are arranged in a circumferential direction. 7. The microwave excitation light-source device as set forth in claim 6 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein one of following conditions is satisfied: with respect to the center conductor, its part corresponding to a region where the arc tube is not disposed, is smaller in radius than its part corresponding to the region where the arc tube is disposed; and with respect to the annular conductor, its part corresponding to the region where the arc tube is not disposed, is larger in radius than its part corresponding to the region where the arc tube is disposed. 8. The microwave excitation light-source device as set forth in claim 6 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein a part of the annular conductor corresponding to a region where the arc tube is not disposed, is composed of a reflective member that reflects light. 9. The microwave excitation light-source device as set forth in claim 8 , further comprising a semiconductor amplifier as a generation source of the microwaves, wherein, with respect to the reflective member, its one end is connected to the semiconductor amplifier and, on its radially outer side, a heat dissipation fin that dissipates heat generated in the semiconductor amplifier is formed. 10. The microwave excitation light-source device as set forth in claim 1 , wherein the center conductor and the annular conductor each have a rectangular shape as a shape perpendicular to the axis direction, to form a line structure. 11. The microwave excitation light-source device as set forth in claim 10 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein one of following conditions is satisfied: with respect to the center conductor, its part corresponding to a region where the arc tube is not disposed, is smaller in radius than its part corresponding to the region where the arc tube is disposed; and with respect to the annular conductor, its part corresponding to the region where the arc tube is not disposed, is larger in radius than its part corresponding to the region where the arc tube is disposed. 12. The microwave excitation light-source device as set forth in claim 10 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein a part of the annular conductor corresponding to a region where the arc tube is not disposed, is composed of a reflective member that reflects light. 13. The microwave excitation light-source device as set forth in claim 12 , further comprising a semiconductor amplifier as a generation source of the microwaves, wherein, with respect to the reflective member, its one end is connected to the semiconductor amplifier and, on its radially outer side, a heat dissipation fin that dissipates heat generated in the semiconductor amplifier is formed. 14. The microwave excitation light-source device as set forth in claim 1 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein one of following conditions is satisfied: with respect to the center conductor, its part corresponding to a region where the arc tube is not disposed, is smaller in radius than its part corresponding to the region where the arc tube is disposed; and with respect to the annular conductor, its part corresponding to the region where the arc tube is not disposed, is larger in radius than its part corresponding to the region where the arc tube is disposed. 15. The microwave excitation light-source device as set forth in claim 14 , wherein the arc tube is disposed in a region that is circumferentially one-sided with respect to the center conductor, and wherein a part of the annular conductor corresponding to a region where the arc tube is not disposed, is composed of a reflective member that reflects light. 16. The microwave excitation light-source device as set forth in claim 15 , further comprising a semiconductor amplifier as a generation source of the microwaves, wherein, with respect to the reflective member, its one end is connected to the semiconductor amplifier and, on its radially outer side, a heat dissipation fin that dissipates heat generated in the semiconductor amplifier is formed. 17. The microwave excitation light-source device as set forth in claim 1 , wherein the arc tube is formed into a spiral shape that extends along the axis direction while whirling in the annular space. 18. The m