Bactericidal light source with high quality of light

What is claimed is: 1. A light source for emitting emitted light having a spectral power distribution (SPD) comprising: a plurality of light emitters including at least one violet solid-state emitter; at least one phosphor; wherein said light emitters and said at least one phosphor are configured such that: at least 25% of the power within the SPD is in the range 390-420 nm, and the emitted light has a chromaticity which is within a Duv distance of less than 5E-3 from the Planckian locus, wherein the chromaticity is calculated using CIE 2005 10° CMFs. 2. The source of claim 1 , wherein the emitted light has a CCT with a range 2700K-6500 K. 3. The source of claim 1 , wherein the violet solid-state emitter is either an LED or a laser diode. 4. The source of claim 1 , wherein the violet solid-state emitter has a peak within the range 400-410 nm. 5. The source of claim 1 , wherein said at least one phosphor comprises at least one red phosphor and a green phosphor. 6. The source of claim 5 , wherein the green phosphor is chosen from a silicate, a fluorosilicate, a chalcogenide, a nitridosilicate, an oxynitridosilicate, a oxynitridoaluminosilicate, or a beta-sialon; and the red phosphor is chosen form a nitridosilicate, a carbidonitridosilicate, a chalcogenide, an oxyfluoride or a complex fluoride doped with Mn4+. 7. The source of claim 1 , wherein the emitted light has a CRI Ra above 80. 8. The source of claim 1 , wherein the emitted light has a CRI Ra above 90 and a CRI R9 above 90. 9. The source of claim 1 , wherein the emitted light has a COI below 3.3. 10. The source of claim 1 , wherein the SPD is characterized by a ratio of power in the range 390-420 nm to lumens which is above 0.5 mW/lm. 11. The source of claim 1 , wherein the light source is further configured to emit a second emitted light characterized by a second SPD. 12. The source of claim 11 , wherein the light source switches between emitting the emitted light and the second emitted light. 13. The source of claim 11 , wherein the second emitted light is substantially pure violet light. 14. The source of claim 1 , wherein the light source is characterized by a second chromaticity and a second distance to the Planckian, Duv2, calculated using 1931 2° CMFs, wherein Duv2 is greater than 5E-3. 15. A light source for emitting emitted light having an SPD comprising: a plurality of light emitters including at least one violet solid-state emitter; at least one phosphor; wherein the light emitters and said phosphor are configured such that: the SPD is characterized by a ratio of power in the range 390-420 nm to lumens which is above 0.5 mW/lm, and the emitted light has a chromaticity which is within a Duv distance of less than 5E-3 from the Planckian locus, said chromaticity being calculated using CIE 2005 10° CMF. 16. A light source for emitting emitted light having an SPD comprising: a plurality of light emitters including at least one violet solid-state emitter; at least one phosphor; wherein said light emitters and said at least one phosphor are configured such that: at least 15% of the power within the SPD is in the range 390-420 nm, and said SPD having a first chromaticity calculated using CIE 2005 10° CMFs and a second chromaticity calculated using 1931 2° CMFs, the first and second chromaticities having a first and second distances, respectively, from the Planckian locus, wherein the second distance is greater than the first distance. 17. The source of claim 16 , wherein at least 25% of the power in the SPD is in the range 390-420 nm. 18. The source of claim 16 , wherein the distances are Cartesian distances in (xy) color space. 19. The source of claim 18 , wherein the second distance is larger than Dxy=0.01 and the first distance is smaller than Dxy=0.01. 20. The source of claim 18 , wherein the second distance is larger than Dxy=0.005 and the first distance is smaller than Dxy=0.005. 21. The source of claim 19 , wherein the emitted light has a CCT with a range 2700K-6500 K. 22. The source of claim 19 , wherein the SPD has a CRI higher than 80. 23. The source of claim 19 , wherein the source is configured to produce a violet irradiance of at least 1 W/m2 integrated in the wavelength range 390-420 nm.