Aperture-fold imaging system

What is claimed is: 1. An optical system comprising: an optical block defining: an aperture configured to admit an optical signal along an optical path into the optical block; a first surface opposite the aperture, along the optical path, and configured to: allow the optical signal to impinge on the first surface after being admitted by the aperture and before being reflected by any other surface of the optical block; and prevent substantially any light passing therethrough from outside the optical block into the optical path; and a first mirror disposed along the optical path and configured to fold the optical path at the first mirror; and a single output surface; and a powered optical element disposed along the optical path, upstream of the first mirror, and configured to receive the optical signal along the optical path and to forward the optical signal along the optical path; wherein the optical block is configured to internally reflect the optical signal within the optical block at the aperture, so as to fold the optical path at the aperture, and forward substantially all the optical signal through the single output surface. 2. An optical system according to claim 1 , wherein the first surface defines at least a portion of the powered optical element. 3. An optical system according to claim 2 , wherein the powered optical element comprises a parabolic mirror. 4. An optical system according to claim 2 , wherein the powered optical element comprises an off-axis parabolic mirror. 5. An optical system according to claim 4 , wherein the powered optical element further comprises a spectrographic optical element. 6. An optical system according to claim 4 , wherein the powered optical element further comprises a diffraction grating. 7. An optical system according to claim 2 , wherein the powered optical element comprises a shaped mirror. 8. An optical system according to claim 2 , wherein (a) the powered optical element, (b) the first mirror, or (c) both the powered optical element and the first mirror are coated with a metamaterial configured to reflect the optical signal. 9. An optical system according to claim 2 , wherein (a) the powered optical element, (b) the first mirror, or (c) both the powered optical element and the first mirror are patterned with sub-wavelength sized microstructures configured to reflect the optical signal. 10. An optical system according to claim 1 , wherein the first surface is coated with a metamaterial configured to prevent substantially any light passing through the first surface from outside the optical block into the optical path. 11. An optical system according to claim 1 , wherein the first surface is patterned with sub-wavelength sized microstructures configured to prevent substantially any light passing through the first surface from outside the optical block into the optical path. 12. An optical system according to claim 1 , further comprising a wavelength-dispersive material in the optical path. 13. An optical system according to claim 1 , wherein the optical block is configured to totally internally reflect the optical signal within the optical block at the aperture, so as to fold the optical path at the aperture. 14. An optical system according to claim 1 , wherein the optical block further defines a second mirror disposed along the optical path downstream of the first mirror and configured to fold the optical path at the second mirror; wherein the aperture, the powered optical element, the first mirror and the second mirror are configured to fold the optical path at the aperture. 15. An optical system according to claim 1 , wherein the powered optical element comprises a lens. 16. An optical system according to claim 1 , wherein the first mirror is configured to at least partially correct an optical aberration, of the optical signal, caused by the powered optical element. 17. An optical system according to claim 1 , further comprising a spectrographic optical element disposed along the optical path. 18. An optical system according to claim 1 , wherein the aperture is optically flat. 19. An optical system comprising: an optical block defining: an aperture configured to admit an optical signal along an optical path into the optical block; a first surface opposite the aperture, along the optical path, and configured to: allow the optical signal to impinge on the first surface after being admitted by the aperture and before being reflected by any other surface of the optical block; and substantially internally reflect the optical signal along the optical path; and a first mirror disposed along the optical path and configured to fold the optical path at the first mirror; and a single output surface; and a powered optical element disposed along the optical path, upstream of the first mirror, and configured to receive the optical signal along the optical path and to forward the optical signal along the optical path; wherein the optical block is configured to internally reflect the optical signal within the optical block at the aperture, so as to fold the optical path at the aperture, and forward substantially all the optical signal through the single output surface. 20. An optical system comprising: an optical block defining: an aperture configured to admit an optical signal along an optical path into the optical block; a first surface opposite the aperture, along the optical path, and configured to: allow the optical signal to impinge on the first surface after being admitted by the aperture and before being reflected by any other surface of the optical block; and redirect a broad bandwidth of the optical signal along the optical path; and a first mirror disposed along the optical path and configured to fold the optical path at the first mirror; and a single output surface; and a powered optical element disposed along the optical path, upstream of the first mirror, and configured to receive the optical signal along the optical path and to forward the optical signal along the optical path; wherein the optical block is configured to internally reflect the optical signal within the optical block at the aperture, so as to fold the optical path at the aperture, and forward substantially all the optical signal through the single output surface. 21. An optical system comprising: an optical block defining: an aperture configured to admit an optical signal along an optical path into the optical block; a first surface opposite the aperture, along the optical path, and: configured to allow the optical signal to impinge on the first surface after being admitted by the aperture and before being reflected by any other surface of the optical block; and coated with a metamaterial configured to substantially internally reflect the optical signal along the optical path; and a first mirror disposed along the optical path and configured to fold the optical path at the first mirror; and a powered optical element disposed along the optical path, upstream of the first mirror, and configured to receive the optical signal along the optical path and to forward the optical signal along the optical path; wherein the optical block is configured to internally reflect the optical signal within the optical block at the aperture, so as to fold the optical path at the aperture. 22. An optical system comprising: an optical block defining: an aperture configured to admit an optical signal along an optical path into the optic