Laser technology has proven to be very effective when it comes to removing unwanted tattoos. Laser tattoo removal procedures use specific wavelengths of light to target and break down tattoo ink particles under the skin. Different colors of tattoo pigments respond to different laser wavelengths, which is why a variety of lasers are used during tattoo removal.
One of the main laser wavelengths used for tattoo removal is 532nm. This wavelength is particularly effective in treating red and brown pigmentation. Red and brown inks sit on the surface of the skin and are generally more easily targeted by shorter wavelengths. The 532nm laser emits green light, which is absorbed by red and brown tattoo pigments. This absorption causes the ink particles to heat up and break down into smaller pieces, allowing the body's immune system to gradually eliminate them over time.
For black and blue pigmentation, a laser wavelength of 1064nm is commonly used. Black and blue inks are usually deep within the skin and require longer wavelengths to reach them effectively. The infrared light emitted by the 1064nm laser is highly absorbed by black and blue tattoo pigments. This intense absorption causes the pigment to break into tiny particles, which are then cleared through the body's natural processes.
In addition to these wavelengths, the 1320nm laser is sometimes used for tattoo removal, particularly where black doll head tattoos are involved. This particular laser is also used in skin whitening and skin rejuvenation procedures. The 1320nm wavelength penetrates deep into the skin, targeting the deep layers where black baby head pigment often appears. It breaks down pigmentation and stimulates collagen production to fade tattoos and rejuvenate the skin.
During laser tattoo removal, the choice of laser wavelength used depends on the color and depth of the tattoo pigment. Additionally, different tips are used to optimize the results. The focusing head is particularly effective for skin whitening. By focusing laser energy on specific areas, it can help lighten overall skin tone and reduce pigmentation. This tip is often used in conjunction with the 1320nm laser for black doll head tattoos.
To remove pigmentation, a fractional tip is often used. The tip divides the laser energy into a grid-like pattern, targeting only a small portion of the skin's surface at a time. This segmented approach allows for more precise and controlled treatment, minimizing the risk of side effects such as scarring or skin damage. It's usually paired with the appropriate wavelength, whether it's 532 nanometers for red and brown pigmentation, or 1064 nanometers for black and blue pigmentation.
In summary, laser tattoo removal uses different wavelengths of light to target and break down tattoo pigments. The 532nm wavelength is effective in treating red and brown pigmentation, while the 1064nm wavelength is used to treat black and blue pigmentation. The 1320nm wavelength is used with specific tips such as focusing tips for black doll head tattoos and skin whitening. Uses a segmented tip to remove pigmentation, ensuring treatment is precise and safe. As laser technology advances, tattoo removal has become an easier and more successful procedure for those who want to remove unwanted tattoos.