Latent fingerprint detection

What is claimed is: 1. A device for detecting a latent fingerprint on a substrate, the device comprising: an illumination source that emits illumination at a VUV (vacuum ultra-violet) wavelength range to illuminate an area on the substrate, wherein the illumination source is configured to cause the substrate to fluoresce providing visible spectrum contrast against the fingerprint which does not fluoresce; and a visible-spectrum imaging device that captures an image of the illuminated fingerprint contrasted against the fluorescing substrate; wherein the illumination source comprises a broad-spectrum light source and a waveband filtering device that filters all but the VUV illumination waveband out of the broad-spectrum generated by the broad-spectrum light source; wherein the waveband filtering device comprises a first mirror in optical communication with the broad-spectrum light source and a second mirror in optical communication with the first mirror; wherein the first and second mirrors both being wedge-shaped mirrors, each having a wedge angle that creates total internal reflection with respect to any light reflected from a back surface of the mirror; and wherein the first and second mirrors both being equipped with a VUV dielectric coating on a front reflecting surface such that each mirror reflects only the VUV illumination waveband from its front reflecting surface. 2. The device of claim 1 , wherein the latent fingerprint remains untreated with any chemicals or contrast agents prior to illumination. 3. The device of claim 1 , wherein the device further comprises a negative lens disposed between the broad-spectrum light source and the waveband filtering device. 4. The device of claim 1 , wherein the optical elements are made of filter glass. 5. The device of claim 1 , wherein the imaging device is a portable camera, the illumination source is mounted to the imaging device, and the device further comprises: an illumination source driver that drives the illumination source in response to an activation pulse; a power source that provides power to the illumination source driver and the illumination source; and a trigger circuit that controls activation pulse width and activation pulse rate of the illumination source. 6. The device of claim 1 , wherein the illumination source comprises: a light-proof housing disposed around a light source and a waveband filtering device; and a first baffle disposed between the light source and the waveband filtering device, the first baffle being configured to exclude a portion of light emitted by light source, but not filtered by the waveband filtering device from the emitted illumination. 7. A device for detecting a latent fingerprint on a substrate, the device comprising: an illumination source that emits collimated illumination at a mid-wave or long-wave infra-red illumination to illuminate an area on the substrate, wherein the illumination source is configured to cause the substrate to fluoresce providing visible spectrum contrast against the fingerprint which does not fluoresce, wherein the latent fingerprint remains untreated with any chemicals or contrast agents prior to illumination; and an infra-red imaging device that captures an image of the illuminated fingerprint contrasted against the substrate; where the collimated infra-red beam source is capable of providing illumination to a target more than ten feet away from the illumination source for latent fingerprint detection; and where the imaging device is co-located with the infra-red beam source. 8. The device of claim 7 , wherein the imaging device is a portable camera, the illumination source is mounted to the imaging device, and the device further comprises: an illumination source driver that drives the illumination source in response to an activation pulse; a power source that provides power to the illumination source driver and the illumination source; and a trigger circuit that controls activation pulse width and activation pulse rate of the illumination source. 9. The device of claim 7 , wherein the illumination source comprises: a light-proof housing disposed around a light source and a waveband filtering device; and a first baffle disposed between the light source and the waveband filtering device, the first baffle being configured to exclude a portion of light emitted by light source, but not filtered by the waveband filtering device from the emitted illumination. 10. A device for detecting a latent fingerprint on a substrate, the device comprising: an illumination source that emits illumination at a VUV (vacuum ultra-violet) wavelength range to illuminate an area on the substrate, wherein the illumination source is configured to cause the substrate to fluoresce providing visible spectrum contrast against the fingerprint which does not fluoresce; and a visible-spectrum imaging device that captures an image of the illuminated fingerprint contrasted against the fluorescing substrate; where the illumination source includes a broad-spectrum light source and a waveband filtering device that filters all but the VUV illumination waveband out of the broadspectrum generated by the broad-spectrum light source; the waveband filtering device including a first optical element in optical communication with the broad-spectrum light source and a second optical element in optical communication with the first optical element; the first and second optical elements both being equipped with a VUV dielectric coating on a reflecting surface such that each optical element reflects only the VUV illumination waveband from the reflecting surface; and the first and second optical elements both being configured to remove light not reflected by the reflecting surface from the output illumination. 11. The device of claim 10 , where the first and second optical elements are prisms. 12. The device of claim 10 , wherein the latent fingerprint remains untreated with any chemicals or contrast agents prior to illumination. 13. The device of claim 10 , wherein the device further comprises a negative lens disposed between the broad-spectrum light source and the waveband filtering device. 14. The device of claim 10 , wherein the optical elements are made of glass. 15. The device of claim 10 , wherein the imaging device is a portable camera, the illumination source is mounted to the imaging device, and the device further comprises: an illumination source driver that drives the illumination source in response to an activation pulse; a power source that provides power to the illumination source driver and the illumination source; and a trigger circuit that controls activation pulse width and activation pulse rate of the illumination source. 16. The device of claim 10 , wherein the illumination source comprises: a light-proof housing disposed around a light source and a waveband filtering device; and a first baffle disposed between the light source and the waveband filtering device, the first baffle being configured to exclude a portion of light emitted by light source, but not filtered by the waveband filtering device from the emitted illumination.