Optical relay with adjustable magnification

What is claimed is: 1. An optical imaging system defining an optical axis, comprising: an object plane and an image plane, wherein the object plane and the image plane are separated by a fixed distance; an optical sub-system located along the optical axis and optically disposed between the object plane and the image plane, the optical sub-system being configured to substantially image electromagnetic radiation emanating from the object plane onto the image plane; and at least one detecting element located substantially at the image plane; wherein the optical sub-system is configured to mechanically translate along the optical axis while substantially focusing the light to the image plane; the translation producing a change in magnification and a change in spectral resolution while the fixed distance from the object plane to the image plane and a focal length of the optical imaging system remain substantially unchanged. 2. The optical imaging system of claim 1 wherein the optical sub-system includes at least one refractive element. 3. The optical imaging system of claim 1 wherein the optical sub-system includes at least one reflective element. 4. A spectrometer defining an optical axis, comprising: at least one slit element located at an object plane; a first optical sub-system disposed along the optical axis and configured to substantially collimate, at a center plane, electromagnetic radiation emanating from said at least one slit element; at least one dispersive element located substantially at the center plane; a second optical sub-system disposed along the optical axis and configured to substantially image the substantially collimated electromagnetic radiation from the center plane onto an image plane; and at least one detecting element located substantially at the image plane; wherein said first optical sub-system and said second optical sub-system are configured to mechanically translate along the optical axis while substantially focusing the light to the image plane; the translation producing a change in magnification and a change in spectral resolution while a fixed distance from the object plane to the image plane and a focal length of the first optical sub-system and a focal length of the second optical sub-system remain substantially unchanged. 5. The spectrometer of claim 4 , wherein said first optical sub-system and said second optical sub-system are substantially located along a portion of said optical axis. 6. The spectrometer of claim 4 , wherein said first optical sub-system and said second optical sub-system are optically disposed between said object plane and said image plane. 7. The spectrometer of claim 4 wherein said first optical sub-system includes at least one refractive or reflective optical element. 8. The spectrometer of claim 4 wherein said second optical sub-system includes at least one refractive or reflective optical element. 9. A method for varying magnification of an optical system, comprising: substantially imaging electromagnetic radiation emanating from a source through an optical relay; detecting the electromagnetic radiation with a detecting element; and mechanically translating the optical relay substantially along an optical axis of the optical relay while substantially focusing the light to the image plane; translation of the optical relay producing a change in magnification and a change in spectral resolution while a fixed distance from the object plane to the image plane and a focal length remain substantially unchanged. 10. The method of claim 9 further comprising: angularly separating according to wavelength, after substantially imaging and before detecting, the electromagnetic radiation imaged through the optical relay.