Recently, a new Hair Removal system has been developed that uses a combination of four different laser wavelengths to effectively remove unwanted hair. The system uses 755nm, 808nm, 940nm, and 1064nm laser diodes which target different depths and types of hair follicles.
- 755nm: The Alexandrite laser is designed for light skin tones and is used to remove thinner and finer hair, as it is highly absorbed by melanin in the hair follicle.
- 808nm: The Diode laser is one of the most commonly used wavelengths and is ideal for people with dark skin tones. This wavelength penetrates deeper into the skin for more effective hair removal.
- 940nm: This wavelength is less commonly used but is ideal for tanned skin and can also penetrate deeper for hair removal.
- 1064nm: The Nd:YAG laser is designed for darker skin tones and is used for thicker and coarser hair.
When combined, some laser hair removal machines use a variety of wavelengths to ensure effective treatment for all skin and hair types.
The High Intensity Diode Laser Hair Removal System boasts a super high power of 1200W, making it one of the most powerful hair removal devices available. With a pulse duration of 10-100ms, the system can target hair follicles with precision, minimizing the risk of damage to surrounding tissue.
Another key feature of the system is its super long life span. There is no limitation within two years, meaning that users can rely on the system for effective hair removal for many years to come.
In addition, the system is also equipped with a built-in cooling mechanism that helps to minimize discomfort during treatment. This makes the process of laser hair removal more pleasant and comfortable for patients.
Overall, the High Intensity Diode Laser Hair Removal System is a cutting-edge device that offers unmatched power and precision in the field of hair removal. Its combination of multiple wavelengths, super short pulse duration and long life span make it one of the most advanced and effective hair removal systems on the market today.
Post time: Mar-23-2023