Light source device using monochromatic light to excite stationary phosphor layers

What is claimed is: 1. A light source device comprising: a first monochromatic light source group for outputting first monochromatic light; a second monochromatic light source group for outputting second monochromatic light having a shorter center wavelength than a center wavelength of the first monochromatic light; a first selection element; a first phosphor layer for emitting light in a first wavelength band when excited; and a second phosphor layer for emitting light in a second wavelength band having a shorter center wavelength than a center wavelength of the light in the first wavelength band when excited; wherein the first selection element directs the first monochromatic light onto the first phosphor layer by transmitting the first monochromatic light and reflects the light in the first wavelength band emitted from the first phosphor layer, and directs the second monochromatic light onto the second phosphor layer by reflecting the second monochromatic light and transmits the light in the second wavelength band emitted from the second phosphor layer, or directs the first monochromatic light onto the first phosphor layer by reflecting the first monochromatic light and transmits the light in the first wavelength band emitted from the first phosphor layer, and directs the second monochromatic light onto the second phosphor layer by transmitting the second monochromatic light and reflects the light in the second wavelength band emitted from the second phosphor layer. 2. The light source device of claim 1 , wherein the first selection element is a polarization selection element, and the second monochromatic light is polarized light. 3. The light source device of claim 1 , wherein the first selection element is a wavelength selection element, and the second phosphor layer is a phosphor layer that emits blue light. 4. The light source device of claim 1 , further comprising a wavelength selection element having an optical transmission band including both a wavelength band of the first monochromatic light output from the first monochromatic light source group and a wavelength band of the second monochromatic light output from the second monochromatic light source group, wherein the wavelength selection element is disposed on a light path from the first monochromatic light source group and the second monochromatic light source group to the first selection element. 5. The light source device of claim 1 , further comprising a lens array group including a first lens array including a plurality of first lens cells aligned in an array and a second lens array including a plurality of second lens cells aligned in an array and receiving light output from the first lens array, wherein the first lens array is disposed on a common light path shared by a light path of the first monochromatic light between the first monochromatic light source group and the first selection element and a light path of the second monochromatic light between the second monochromatic light source group and the first selection element, and an incidence surface of the first lens array is in a conjugate relationship with the first phosphor layer and the second phosphor layer. 6. The light source device of claim 1 , further comprising: a third monochromatic light source for outputting light in a third wavelength band; and a light path altering element for making a light path of the light in the third wavelength band identical to a common light path shared by a light path of the light in the first wavelength band reflected by the first selection element and a light path of the light in the second wavelength band transmitted by the first selection element, or for making a light path of the light in the third wavelength band identical to a common light path shared by a light path of the light in the first wavelength band transmitted by the first selection element and a light path of the light in the second wavelength band reflected by the first selection element. 7. The light source device of claim 2 , further comprising a second selection element for directing a direction of propagation of the first monochromatic light and a direction of propagation of the second monochromatic light toward the first selection element by transmitting one and reflecting the other one of the first monochromatic light and the second monochromatic light. 8. The light source device of claim 7 , wherein optical transmission characteristics of the first selection element indicating variations in optical transmittance with respect to wavelength and optical transmission characteristics of the second selection element indicating variations in optical transmittance with respect to wavelength are equal to each other. 9. The light source device of claim 2 , further comprising a wavelength selection element having an optical transmission band including both a wavelength band of the first monochromatic light output from the first monochromatic light source group and a wavelength band of the second monochromatic light output from the second monochromatic light source group, wherein the wavelength selection element is disposed on a light path from the first monochromatic light source group and the second monochromatic light source group to the first selection element. 10. The light source device of claim 7 , further comprising a wavelength selection element having an optical transmission band including both a wavelength band of the first monochromatic light output from the first monochromatic light source group and a wavelength band of the second monochromatic light output from the second monochromatic light source group, wherein the wavelength selection element is disposed on a light path from the first monochromatic light source group and the second monochromatic light source group to the first selection element. 11. The light source device of claim 2 , further comprising a lens array group including a first lens array including a plurality of first lens cells aligned in an array and a second lens array including a plurality of second lens cells aligned in an array and receiving light output from the first lens array, wherein the first lens array is disposed on a common light path shared by a light path of the first monochromatic light between the first monochromatic light source group and the first selection element and a light path of the second monochromatic light between the second monochromatic light source group and the first selection element, and an incidence surface of the first lens array is in a conjugate relationship with the first phosphor layer and the second phosphor layer. 12. The light source device of claim 7 , further comprising a lens array group including a first lens array including a plurality of first lens cells aligned in an array and a second lens array including a plurality of second lens cells aligned in an array and receiving light output from the first lens array, wherein the first lens array is disposed on a common light path shared by a light path of the first monochromatic light between the first monochromatic light source group and the first selection element and a light path of the second monochromatic light between the second monochromatic light source group and the first selection element, and an incidence surface of the first lens array is in a conjugate relationship with the first phosphor layer and the second phosphor layer. 13. The light source device of claim 3 , further comprising a second selection element for directing a direction of propagation of the first monochromatic light and a direction of propagation of the second monochromatic light toward the first sel