Fluorescence guide plate, and solar-pumped laser

What is claimed is: 1. A fluorescence guide plate comprising: a first surface; a second surface; an edge surface that connects a periphery of the first surface with a periphery of the second surface; and a dichroic mirror laminated on the first surface, wherein: fluorescent material that absorbs irradiation light applied to the first surface to emit fluorescence is dispersed at least one of inside a space defined by the first surface, the second surface, and the edge surface, on the first surface, or on the second surface; the fluorescence guide plate has a plate-shaped structure made of a material with a higher refractive index than an outside of the fluorescence guide plate; the fluorescence guide plate is configured such that, when the irradiation light enters from the first surface, the fluorescence emitted from the fluorescent material exits from the edge surface; and a reflection wavelength band of a normal incident beam reflected by the dichroic mirror lies in a range of wavelengths longer than a peak wavelength of a fluorescence wavelength band of the fluorescent material. 2. The fluorescence guide plate according to claim 1 , wherein a reflection wavelength band of a first beam reflected by the dichroic mirror overlaps the fluorescence wavelength band of the fluorescent material, the first beam being a beam of which an incident angle is larger than a first predetermined angle in a direction from an inside of the fluorescence guide plate toward the first surface. 3. The fluorescence guide plate according to claim 2 , wherein the reflection wavelength band of the first beam reflected by the dichroic mirror includes the fluorescence wavelength band of the fluorescent material. 4. The fluorescence guide plate according to claim 1 , wherein the reflection wavelength band of the dichroic mirror is set such that a second beam passes through the dichroic mirror, the second beam being a beam of which an incident angle is smaller than a second predetermined angle in a direction from an outside of the fluorescence guide plate toward the first surface, and the second beam being a beam with a wavelength at which the fluorescent material is able to be excited. 5. A solar-pumped laser comprising: the fluorescence guide plate according to claim 1 ; and an optical fiber wound on the edge surface of the fluorescence guide plate along a peripheral direction of the first surface and the second surface, wherein: the optical fiber includes a core part in which a laser medium is dispersed, a clad part of which a surface and an inside are made of a material passing the fluorescence and that has a lower refractive index than the core part, a first reflector configured to reflect all of light emitted from the laser medium on one end face of the optical fiber, and a second reflector configured to pass part of light emitted from the laser medium on the other end face of the optical fiber and reflect the remaining part of the light; and the optical fiber is configured such that the fluorescence exited from the edge surface of the fluorescence guide plate passes through the surface of the clad part and reaches the core part, laser light occurs as a result of excitation of the laser medium caused by the fluorescence, and the laser light exits from the other end face of the optical fiber.