Optical apparatus for skin treatment, method for controlling the optical apparatus, and method for skin treatment

The invention claimed is: 1. An optical apparatus for skin treatment, comprising: a first laser source configured to emit a first pulsed laser beam at a first wavelength; a second laser source configured to emit a second pulsed laser beam at a second wavelength, the second laser source comprising an Alexandrite medium, wherein an optical penetration depth of the first wavelength in skin is higher than a respective optical penetration depth of the second wavelength; a radiating part for radiating the first laser beam and the second laser beam onto a surface of a target portion of the skin to be treated; a focusing optical system configured to focus and adjust a spot size of the first laser beam and the second laser beam; a cooling part for spraying cooling gas onto the surface of the target portion of the skin to cool the surface of the target portion of the skin; and a control part configured to control the first laser source, the second laser source, and the cooling part, in a sequence wherein: first, the radiating part radiates a pulse of the first laser beam onto the target portion of the skin for preheating the surface of the target portion of the skin to a temperature T 1 , and the focusing optical system focuses the first laser beam to a first spot size; second, waiting a first period of time of 10 to 100 ms, immediately after radiating the first laser beam; third, after the first waiting period, the cooling part sprays the cooling gas onto the target portion of the skin and cools the surface of the target portion of the skin without cooling an internal tissue of the target portion of the skin that remains at a temperature higher than that of the internal tissue prior to radiating the pulse of the first laser beam; and fourth, waiting for a second time ranging from 10 to 100 ms after the cooling part sprays the target portion; and fifth, the second laser source radiates a pulse of the second laser beam with a power greater than that of the pulse of the first laser beam onto the target portion of the skin for treating the target portion at a temperature T 2 that is higher than T 1 , and the focusing optical system focuses the first laser beam to a second spot size that is smaller than the first spot size. 2. The optical apparatus of claim 1 , wherein the first laser source is an ND:YAG laser. 3. The optical apparatus of claim 2 , wherein the first wavelength is at 1064 nm. 4. The optical apparatus of claim 1 , wherein the second wavelength is at 755 nm. 5. The optical apparatus of claim 1 , wherein the cooling part has a solenoid valve. 6. The optical apparatus of claim 1 , wherein the cooling part has a storage part for the cooling gas. 7. The optical apparatus of claim 1 , wherein the focusing optical system includes at least one optical member arranged to slide along an optical path of the first and second laser beams. 8. The optical apparatus of claim 1 , wherein the control part controls radiating time of the first laser beam and the second laser beam, the first laser beam being controlled to be radiated for a shorter period than the second laser beam. 9. The optical apparatus of claim 8 , wherein a shutter is arranged in an optical path of the first and second laser beams, wherein the control part controls the radiating time of the first and second laser beams by opening and closing the shutter. 10. The optical apparatus of claim 1 , wherein the first and second light sources are integrated. 11. The optical apparatus of claim 1 , wherein the first wavelength is at 1064 nm and the second wavelength is at 755 nm. 12. The optical apparatus of claim 1 , wherein the radiating part is a handpiece.