Optical multiplexer/demultiplexer, optical subassembly, and optical module

What is claimed is: 1. An optical subassembly comprising: a plurality of optical elements for inputting or outputting signal beams, each optical element, of the plurality of optical elements, being configured to input or output a signal beam, of the signal beams, with a different wavelength than other signal beams, of the signal beams, to be input or output by other optical elements of the plurality of optical elements; and an optical multiplexer/demultiplexer for converting between the signal beams and a multiplexed signal beam, the optical multiplexer/demultiplexer including: a light transmission body with a first surface and a second surface parallel to the first surface, a plurality of beam splitters on the first surface, a first reflector continuously integral over a plurality of non-input/output sections of the first surface, wherein the plurality of non-input/output sections are between a pair of the plurality of beam splitters, and a second reflector on the second surface, wherein the light transmission body passes light to be reflected on the plurality of beam splitters, the first reflector, and the second reflector,  the light propagating between the first surface and the second surface, wherein the light transmission body comprises a plurality of first input/output sections on the first surface for inputting or outputting the signal beams, wherein the plurality of first input/output sections include a first group of first input/output sections and a second group of first input/output sections, wherein the first reflector is disposed between the first group and the second group, wherein the light transmission body comprises a second input/output section on the second surface for inputting or outputting the multiplexed signal beam, wherein each of the plurality of beam splitters are located at a corresponding first input/output section, of the plurality of first input/output sections, to pass a corresponding signal beam of the signal beams, and wherein a pitch between an adjacent pair of the plurality of non-input/output sections is equal to a pitch between an adjacent pair of the first group. 2. The optical subassembly of claim 1 , wherein the plurality of beam splitters are optical filters, and wherein the first reflector and the second reflector are reflective films. 3. The optical subassembly of claim 1 , wherein a pitch between a particular non-input/output section, of the plurality of non-input/output sections, and a particular input/output section of the first group is equal to the pitch between the adjacent pair of the first group. 4. The optical subassembly of claim 1 , wherein the plurality of optical elements comprise a first set of optical elements and a second set of optical elements, and wherein a distance between a first optical element, of the first set, and a second optical element, of the second set, is greater than a distance between an adjacent pair of optical elements in the first set of optical elements, the first optical element being adjacent to the second optical element. 5. The optical subassembly of claim 1 , wherein each set of the plurality of optical elements is a monolithically integrated array element. 6. The optical subassembly of claim 5 , wherein the monolithically integrated array element includes a corresponding set of the plurality of optical elements being mounted on a submount. 7. The optical subassembly of claim 1 , further comprising: a plurality of integrated circuits, wherein each of the plurality of integrated circuits is connected to a corresponding set of the plurality of optical elements. 8. The optical subassembly of claim 1 , further comprising: a plurality of lenses, each lens, of the plurality of lenses, being disposed between a corresponding optical element, of the plurality of optical elements, and the corresponding first input/output section. 9. An optical module comprising a plurality of optical subassemblies, wherein at least one of the plurality of optical subassemblies is the optical subassembly of claim 1 . 10. The optical subassembly of claim 1 , wherein each of the plurality of beam splitters comprises insulating films. 11. The optical subassembly of claim 1 , wherein a first beam splitter, of the plurality of beam splitters, passes a first signal beam, of the signal beams, with a first wavelength, and wherein a second beam splitter, of the plurality of beam splitters, passes a second signal beam, of the signal beams, with a second wavelength. 12. The optical subassembly of claim 11 , wherein the first beam splitter reflects any signal beam, of the signal beams, with a wavelength different from the first wavelength, and wherein the second beam splitter reflects any signal beam, of the signal beams, with a wavelength different from the second wavelength. 13. The optical subassembly of claim 1 , wherein each of the plurality of beam splitters is disposed between a glass substrate and the light transmission body. 14. An optical multiplexer/demultiplexer for converting between signal beams and a multiplexed signal beam, comprising: a light transmission body with a first surface and a second surface parallel to the first surface; a plurality of beam splitters on the first surface; a first reflector continuously integral over a plurality of non-input/output sections of the first surface, wherein the plurality of non-input/output sections are between a pair of the plurality of beam splitters; and a second reflector on the second surface, wherein the light transmission body passes light to be reflected on the plurality of beam splitters, the first reflector, and the second reflector, the light propagating between the first surface and the second surface, wherein the light transmission body comprises a plurality of first input/output sections on the first surface for inputting or outputting the signal beams, wherein the plurality of first input/output sections include a first group of first input/output sections and a second group of first input/output sections, wherein the first reflector is disposed between the first group and the second group, wherein the light transmission body comprises a second input/output section on the second surface for inputting or outputting the multiplexed signal beam, wherein each of the plurality of beam splitters are located at a corresponding first input/output section, of the plurality of first input/output sections, to pass a corresponding signal beam of the signal beams, and wherein a pitch between an adjacent pair of the plurality of non-input/output sections is equal to a pitch between an adjacent pair of the first group. 15. The optical multiplexer/demultiplexer of claim 14 , wherein the plurality of beam splitters are optical filters, and wherein the first reflector and the second reflector are reflective films. 16. The optical multiplexer/demultiplexer of claim 14 , wherein a pitch between a particular non-input/output section, of the plurality of non-input/output sections, and a particular input/output section of the first group is equal to the pitch between the adjacent pair of the first group. 17. The optical multiplexer/demultiplexer of claim 14 , wherein each of the plurality of beam splitters comprises insulating films. 18. The optical multiplexer/demultiplexer of claim 14 , wherein a first beam splitter, of the plurality of beam splitters, passes a first signal beam, of the signal beams, with a first wavelength, and wherein a second beam splitter, of the plurality of beam