Theory of Diode Laser

German diode laser hair remover technology is based on the selective kinetics of light and heat. The laser penetrates

the skin surface to the root of the hair follicle; directly hits the melanocytes of the hair follicle without damaging the

surrounding tissue. The laser can be absorbed by the hair shafts and follicles in the melanin and converted into heat,

thereby increasing the temperature of the hair follicles. When the temperature rises enough to irreversibly damage the

hair follicle structure, the hair follicle disappears after a period of natural physiological process, thus achieving the purpose

of permanent hair removal.

 

 

 

Semiconductor cooling inside the handle allows the contact cooling temperature of the handle to reach at

least -35°C during treatment, achieving painless hair removal in just one minute! Rapid cooling to -35°C

 

 

 

laser principle：

Using the gem Q-switched mode and the principle of photoblasting, the laser concentrated high energy is

emitted instantaneously so that the laser with a fixed wavelength can penetrate the epidermis instantaneously

in a very short time, and the corresponding pigment group is rapidly expanded by heat and explodes and breaks

up instantly. Part of the pigment group breaks down into fine particles that can be swallowed by human macrophages

and discharged from the body through the human lymphatic circulation system. Thus to achieve the effect of removing stains.

 

 

 

Multiple Functional Uses
Freckle removal
Mole removal
Tattoo removal
Efficient hair removal
Skin whitening
Skin rejuvenation

 

 

12-inch touch color screen
The machine is equipped with an intelligent operating system
and supports multi-interface display