Light frequency upconversion of laser light, for cleansing

What is claimed is: 1. A luminaire, comprising: a general illumination light source capable of emitting visible light for a general illumination application in a volume in a vicinity of the luminaire; a laser light source configured to emit laser light having a first dominant wavelength in a visible light spectrum or in an infrared light spectrum; a light frequency up-converter, coupled to convert the laser light emitted by the laser light source to ultraviolet light of a second or higher order harmonic having a second dominant wavelength in an ultraviolet spectrum at or below 380 nanometers (nm), wherein: the light frequency up-converter comprises a harmonic generator configured to convert the laser light having the first dominant wavelength to the ultraviolet light of the second or higher order harmonic having the second dominant wavelength; the harmonic generator comprises a nonlinear metamaterial configured to exhibit: resonance for a frequency of the laser light having the first dominant wavelength from the laser light source and resonance for a harmonic frequency of the ultraviolet light of the second or higher order harmonic having the second dominant wavelength, substantial mode overlap between the frequency of the laser light from the laser light source and the harmonic frequency of the ultraviolet light of the second or higher order harmonic, and intrinsic nonlinear material or phase matching; and an optical element coupled to the light frequency up-converter to distribute the ultraviolet light for a cleansing application in the volume in the vicinity of the luminaire. 2. The luminaire of claim 1 , wherein the nonlinear metamaterial comprises: a gold split resonator structure; a gold cross bar structure; or an all dielectric cylinder structure. 3. The luminaire of claim 1 , wherein the nonlinear metamaterial includes a topological metamaterial. 4. The luminaire of claim 1 , wherein the light frequency up-converter further comprises: an additional laser light source configured to emit laser light having a third dominant wavelength in the visible light spectrum or in the infrared light spectrum; and an optical mixer coupled to receive and mix light from the laser light source and the additional laser light source to produce the ultraviolet light having the second dominant wavelength in the ultraviolet spectrum at or below 380 nm. 5. The luminaire of claim 4 , wherein the optical mixer comprises a nonlinear crystal or a second nonlinear metamaterial. 6. The luminaire of claim 1 , wherein the ultraviolet light has the second dominant wavelength in a range of from 180 nm to 380 nm. 7. The luminaire of claim 1 , wherein the ultraviolet light has the second dominant wavelength in a range of from 200 nm to 225 nm. 8. The luminaire of claim 1 , wherein the ultraviolet light has the second dominant wavelength in a range of from 207 nm to 222 nm. 9. The luminaire of claim 1 , wherein the optical element comprises a beam shaping lens configured to disperse the ultraviolet light about a target region of the volume in the vicinity of the luminaire. 10. The luminaire of claim 1 , wherein the optical element comprises a variable optical beam deflector configured to scan the ultraviolet light across a target region of the volume in the vicinity of the luminaire. 11. The luminaire of claim 1 , wherein: the general illumination light source includes one or more solid state lighting devices. 12. The luminaire of claim 11 , wherein: the one or more solid state lighting devices include one or more red, green, blue, or white light emitting diodes. 13. A cleansing lighting device, comprising: a laser light source configured to emit laser light having a first dominant wavelength in a visible light spectrum or in an infrared light spectrum; a light frequency up-converter, coupled to convert the laser light emitted by the laser light source to ultraviolet light of a second or higher order harmonic having a second dominant wavelength in the ultraviolet spectrum at or below 380 nanometers (nm), wherein: the light frequency up-converter comprises a harmonic generator configured to convert the laser light having the first dominant wavelength to the ultraviolet light of the second or higher order harmonic having the second dominant wavelength; the harmonic generator comprises a nonlinear metamaterial configured to exhibit: resonance for a frequency of the laser light having the first dominant wavelength from the laser light source and resonance for a harmonic frequency of the ultraviolet light of the second or higher order harmonic having the second dominant wavelength, substantial mode overlap between the frequency of the laser light from the laser light source and the harmonic frequency of the ultraviolet light of the second or higher order harmonic, and intrinsic nonlinear material or phase matching; and an optical element coupled to the light frequency up-converter to distribute the ultraviolet light for a cleansing application in a volume in a vicinity of the cleansing lighting device. 14. The cleansing lighting device of claim 13 , wherein the light frequency up-converter further comprises: an additional laser light source configured to emit laser light having a third dominant wavelength in the visible light spectrum or in the infrared light spectrum; and an optical mixer coupled to receive and mix light from the laser light sources and the additional laser light source to produce the ultraviolet light having the second dominant wavelength in the ultraviolet spectrum at or below 380 nm. 15. The cleansing lighting device of claim 13 , wherein the ultraviolet light has the second dominant wavelength in a range of from 200 nm to 380 nm. 16. The cleansing lighting device of claim 13 , wherein the ultraviolet light has the second dominant wavelength in a range of from 200 nm to 225 nm. 17. The cleansing lighting device of claim 13 , wherein the ultraviolet light has the second dominant wavelength in a range of from 207 nm to 222 nm. 18. The cleansing lighting device of claim 13 , wherein the nonlinear metamaterial includes a topological metamaterial.