Light source for eye therapy and light emitting device having the same

What is claimed is: 1. A light source, comprising: a first light emitter configured to emit a first light having a wavelength range from 380 nm to 780 nm and having a spectrum including an area that overlaps at least 55% of a normalized solar spectrum; a second light emitter configured to emit a second light having a higher color temperature than that of the first light; and a controller configured to control the first and second light emitters, wherein: a valley wavelength of the first light has a deviation equal to or less than 0.15 from the normalized solar spectrum in a wavelength range from 460 nm to 490 nm; the controller is further configured to adjust a color temperature range of light emitted from the first and second light emitters; and in the color temperature range of 2600K to 4000K, a deviation of a peak wavelength in a wavelength range from 380 nm to 490 nm of the light having a higher color temperature is configured to be greater than a deviation of a peak wavelength in a wavelength range from 380 nm to 490 nm of the light having a lower color temperature. 2. The light source of claim 1 , wherein a peak wavelength of the first light has a deviation equal to or less than 0.14 form the normalized solar spectrum in a wavelength range from 380 nm to 490 nm. 3. The light source of claim 2 , wherein a spectrum of the light includes an area that overlaps at least 55% of the normalized solar spectrum when the color temperature of the light is in a range of 2600K to 3700K. 4. The light source of claim 3 , wherein a peak wavelength of the light has a deviation equal to or less than 0.10 from the normalized solar spectrum. 5. The light source of claim 2 , wherein a spectrum of the light includes an area that overlaps at least 70% of the normalized solar spectrum when the color temperature of the light is in a range from 3700K to 4700K. 6. The light source of claim 5 , wherein a peak wavelength of the light has a deviation equal to or less than 0.13 from the normalized solar spectrum. 7. The light source of claim 2 , wherein a spectrum of the light includes an area that overlaps at least 75% of the normalized solar spectrum when the color temperature of the light is in a range from 4700K to 7000K. 8. The light source of claim 7 , wherein a peak wavelength of the light has a deviation equal to or less than 0.14 from the normalized solar spectrum. 9. A light source, comprising: a first light emitter configured to emit a first light having a first color temperature in a range of 2600K to 7000K; a second light emitter configured to emit a second light having a higher color temperature than of the first light; and a controller configured to control the first and second light emitters, wherein: a peak wavelength of the first light has a first deviation equal to or less than 0.14 from a normalized solar spectrum in a wavelength range from 380 nm to 490 nm; a valley wavelength of the second light has a second deviation from the normalized solar spectrum in the wavelength range from 380 nm to 490 nm, the second deviation being equal to or greater than the first deviation; the controller is further configured to adjust a color temperature range of light emitted from the first and second light emitters; and in the color temperature range of 2600K to 4000K, a deviation of a peak wavelength in a wavelength range from 380 nm to 490 nm of the light having a higher color temperature is configured to be greater than a deviation of a peak wavelength in the wavelength range from 380 nm to 490 nm of the light having a lower color temperature. 10. The light source of claim 9 , wherein a difference between the first deviation and the second deviation decreases as the color temperature of the light increases from 3000K to 5000K. 11. The light source of claim 9 , wherein the normalized solar spectrum is represented by E ⁡ ( λ , T ) = 2 ⁢ hc 2 λ s · 1 e hc ⁢ / ⁢ λ ⁢ ⁢ kT - 1 , where λ, h, c, T, and k denote a wavelength (μm), Planck's constant, a speed of light, an absolute temperature, and Boltzmann's constant, respectively. 12. The light source of claim 11 , wherein the light source is configured to treat myopia. 13. The light source of claim 11 , wherein the light source is configured to reduce eye stress. 14. A light emitting device for eye therapy, comprising: the light source of claim 9 ; and a power supply for supplying power to the light source. 15. The light emitting device of claim 14 , further comprising a mount connected to the light source to be mounted on a user's head. 16. The light emitting device of claim 14 , further comprising a support for supporting the light source to be provided as a table lamp. 17. A light device for eye wellness, comprising: a first light source configured to emit light having a first wavelength range from 380 nm to 780 nm; and a control unit configured to adjust an amount of the light emitted from the first light source in response to a current location information, wherein: a peak wavelength of the light has a first deviation equal to or less than 0.14 from a normalized solar spectrum in a wavelength range from 380 nm to 490 nm; a color temperature of the light emitted from the first light source is in a range of 2600K to 6500K; and in the color temperature range of 2600K to 4000K, a deviation of a peak wavelength in a wavelength range from 380 nm to 490 nm of the light having a higher color temperature is configured to be greater than a deviation of a peak wavelength in a wavelength range from 380 nm to 490 nm of the light having a lower color temperature. 18. The light device of claim 17 , further comprising a second light source configured to emit light in an ultraviolet wavelength range, wherein the light emitted from the second light source is configured to promote synthesis of Vitamin D. 19. The light device of claim 17 , further comprising a third light source configured to emit light in an infrared wavelength range. 20. The light device of claim 17 , wherein the control unit is configured to adjust a sunrise time, a sunset time,