Phosphor element, phosphor device, and illumination apparatus

The invention claimed is: 1. A phosphor element comprising an incident face for an excitation light, an emitting face opposing said incident face and a side face, said phosphor element converting at least a part of said excitation light incident onto said incident face into a fluorescence and emitting said fluorescence from said emitting face: wherein said emitting face has a convex shape and an area greater that an area of said incident face; wherein said phosphor element comprises an inclination region in which an inclination angle of said side face with respect to a vertical axis perpendicular to said emitting face is monotonously increased from said incident face toward said emitting face, viewed in a cross-section perpendicular to said emitting face and along the longest dividing line halving said emitting face; and wherein said phosphor element comprises a plurality of said inclination regions along said side face. 2. The phosphor element of claim 1 , wherein said inclination region reaches said emitting face. 3. The phosphor element of claim 1 , wherein said inclination angle at an end of said inclination region on a side of said incident face and said inclination angle of said inclination region at an end on a side of said emitting face are different by 3° or larger and 45° or smaller. 4. The phosphor element of claim 1 , wherein said inclination angle at an end of said inclination region on a side of said incident face is 20° or larger and 62° or smaller. 5. The phosphor element of claim 1 , wherein said inclination angle at an end of said inclination region on a side of said emitting face is 23° or larger and 65° or smaller. 6. The phosphor element of claim 1 , further comprising a curved part in an outer peripheral part of said incident face. 7. A phosphor device comprising: the phosphor element of claim 1 ; and a reflection film covering at least a part of said side face. 8. The phosphor device of claim 7 , further comprising a low-refractive index layer present between said side face and said reflection film. 9. The phosphor device of claim 7 , further comprising a heat dissipation substrate present on said side face of said phosphor element, said heat dissipation substrate comprising a metal having a thermal conductivity of 200 W/mK or larger. 10. An illumination apparatus comprising a light source oscillating a laser light and the phosphor element of claim 1 . 11. The illumination apparatus of claim 10 , further comprising a reflection film covering at least a part of said side face. 12. The illumination apparatus of claim 10 , further comprising a low refractive index layer present between said side face and said reflection film. 13. The illumination apparatus of claim 10 , further comprising a heat dissipation substrate present on said side face of said phosphor element, said heat dissipation substrate comprising a metal having a thermal conductivity of 200 W/mK or larger. 14. The phosphor element of claim 1 , wherein the plurality of said inclination regions have differing inclination angles.