Miniature grism system for astronomical spectroscopy

What is claimed is: 1. A grism system configured for use with a telescope, the grism system comprising: a. collimating optics; b. a grism oriented next to the collimating optics, the grism comprising: i. at least one prism; and ii. a grating; c. focusing optics oriented next to grism opposite the collimating optics; and d. an enclosure housing the collimating optics, the grism, and the focusing optics, wherein the enclosure is configured to fit into a filter slot of a filter wheel of the telescope. 2. The grism system of claim 1 , wherein the grism system is configured to generate a spectrum to be captured by a camera associated with the telescope for spectroscopy. 3. The grism system of claim 2 , wherein the grism system does not need to be removed from the telescope for the camera to be used for imaging. 4. The grism system of claim 1 , wherein the grism system is configured to function as a spectrometer that produces low-resolution spectra of astronomical objects. 5. The grism system of claim 1 , wherein the collimating optics comprises at least one collimating lens. 6. The grism system of claim 5 , wherein the at least one collimating lens comprises an achromatic lens. 7. The grism system of claim 6 , wherein the focusing optics comprises at least one achromatic focusing lens. 8. The grism system of claim 1 , wherein the grism is configured to make a spectrum that travels straight along an optical axis to a center of a camera associated with the telescope. 9. The grism system of claim 8 , wherein the at least one prism comprises a prism deviation angle and the grating comprises a grating deviation angle, wherein the prism deviation angle equals the grating deviation angle. 10. The grism system of claim 9 , wherein the at least one prism comprises a plurality of prisms, wherein the sum of the plurality of prism deviation angles equals the grating deviation angle. 11. The grism system of claim 10 , wherein the plurality of prisms comprises two prisms oriented on opposite sides of the grating. 12. The grism system of claim 1 , wherein the at least one prism is coated with an anti-reflective coating. 13. The grism system of claim 1 , wherein the grating comprises a transmission grating. 14. The grism system of claim 13 , wherein the transmission grating comprises a ruled grating. 15. The grism system of claim 14 , wherein the ruled grating comprises a blazed grating. 16. The grism system of claim 1 , wherein the grating is etched into a surface of the at least one prism. 17. The grism system of claim 1 , wherein the grism system is configured to work with telescopes having a fast focal ratio. 18. A grism system configured for use with a filter wheel of a telescope having a camera, the grism system configured to produce a spectrum, the grism system comprising: a. at least one achromatic collimating lens; b. a grism comprising: i. a first prism having a first prism deviation angle; ii. a second prism having a second prism deviation angle; and iii. a blazed transmission grating having a deviation angle, the grating positioned between the first and second prisms, wherein the sum of the first and the second prism deviation angles equals the grating deviation angle; c at least one achromatic focusing lens oriented next to the grism opposite the at least one achromatic collimating lens; and d. an enclosure housing the at least one achromatic collimating and focusing lenses, and the grism, the enclosure configured to be retained within a slot of the filter wheel, wherein the grism system allows the camera of the telescope to operate between spectroscopy and imaging without removing the grism system from the telescope. 19. A grism system configured for use with a telescope, the grism system comprising: a. collimating optics; b. a grism oriented next to the collimating optics, the grism comprising: i. at least one prism; and ii. a grating; c. focusing optics oriented next to grism opposite the collimating optics; and d. an enclosure housing the collimating optics, the grism, and the focusing optics, wherein the enclosure is configured to fit into a filter slot of a filter wheel of the telescope, wherein the grism system is configured to generate a spectrum to be captured by a camera associated with the telescope for spectroscopy, and the grism system is further configured to allow the camera to be used for imaging without the grism system being removed from the telescope. 20. The grism system of claim 19 , wherein the grism system is configured to work with telescopes having a focal ratios ranging approximately between f/5 and f/12.