Customization: | Available |
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Type: | Laser Beauty Equipment |
Theory: | Laser |
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Pico laser, also known as picosecond laser, is a type of laser technology used in dermatology and aesthetic medicine. It represents an advancement over traditional lasers because it emits extremely short pulses of light in the picosecond range (one trillionth of a second), whereas older lasers typically used nanosecond pulses (one billionth of a second).Due to the shorter pulse duration, there is less heat generated, reducing the risk of adverse effects such as burns or hyperpigmentation.
Skin Rejuvenation: Pico lasers can also be used for skin rejuvenation by stimulating collagen production and treating pigmentation issues like age spots and melasma.
Pico lasers have become popular in the field of dermatology and cosmetic medicine due to their effectiveness and safety profile. However, like any medical procedure, it's essential to consult with a qualified and experienced professional to determine if pico laser treatment is suitable for your specific needs and skin type.
diode laser advanced:Diode lasers are a type of semiconductor lasers that have numerous applications across various industries due to their compact size, efficiency, and reliability. Here are some advanced aspects of diode lasers:
Efficiency: Diode lasers are highly efficient compared to other types of lasers, converting a high percentage of input electrical power into laser light. This efficiency is essential in applications where power consumption and heat generation must be minimized.
Wavelength range: Diode lasers are available in a wide range of wavelengths, spanning from the ultraviolet (UV) to the infrared (IR) region of the electromagnetic spectrum. This versatility makes them suitable for various applications, including telecommunications, materials processing, medical procedures, and scientific research.
High power and brightness: Advances in semiconductor technology have led to the development of high-power diode lasers with excellent brightness levels. Brightness is a measure of the concentration of optical power in the laser beam's cross-sectional area. High brightness diode lasers are valuable for applications that require focused, intense laser beams.
Fiber coupling: Diode lasers can be coupled efficiently with optical fibers, enabling the delivery of laser light over long distances and in confined spaces. Fiber-coupled diode lasers find applications in telecommunications, medical treatments, and industrial processes.
Frequency conversion: Diode lasers can be combined with nonlinear crystals to achieve frequency conversion. This process enables the generation of laser light at different wavelengths, including green, blue, and ultraviolet. Frequency-converted diode lasers are used in laser displays, biomedical imaging, and other specialized applications.
IPL System
Fast Hair Removal stands for Fast Hair Removal, a technology of permanent hair removal which is having
a sweeping success. The system combines laser technology and the benefits of the pulsating light method
achieving practically painless results. Even hairs which until now have been difficult or even impossible to
be removed can now be treated. "In Motion" represents a breakthrough in permanent hair removal with light
technology. The treatment is more pleasant than with the conventional systems and your skin is better protected.
HR principle is based on selective thermolysis, in the hair follicle and shaft, there are abundant melanin that
spread over among cells of hair bulb matrix and transfer to structure of hair shaft( such as medulla, cortex,
hair cuticle). Photon energy aim at melanin as target for HR treatment. After melanin assimilating laser energy,
temperature rises rapidly, therefore, result in around hair follicle tissue damaged and remove hair. In accordance
with selective thermolysis theory, choose proper wavelength, pulse width and energy density, photon can damaged
accurately hair follicle and no-damage around tissues.
Nd: YAG Laser System
Tattoo removal by Q-switched laser uses a process known as the 'photo acoustic effect'. When the laser
energy is absorbed by the tattoo pigment an extremely high temperature is generated - typically thousands
of degrees. However, this high temperature is not sustainable and so it 'collapses.'
This produces an acoustic wave to form around the pigment particles. The result of this wave is a shattering
of the particles of ink into smaller fragments. The body's own defense mechanisms then remove these smaller
particles leaving behind the larger tattoo pigmentation. Subsequent treatments will induce the same 'shattering'
effect on the remaining ink particles until they eventually all disappear.
Power | Diode laser : 2500W; IPL:1400W; Nd:YAG Laser : 500W | Wavelength | Diode laser(755nm+808nm+1064nm); |
IPL: 480nm/530nm/640nm | |||
Nd:YAG Laser: 1064nm/532nm/1320nm | |||
Frequency | 1-10Hz | IPL Filters | 480nm/530nm/640nm |
Diode laser Energy density | 1-100J / cm2 | Spot Size | Diode laser:13mm*16mm ; IPL: 15*50mm |
IPL Energy | 1-50J/cm2 | Spot diameter | Nd:YAG Laser:1-10mm |
Laser Bars | 10 Bars ( USA Coherent ) | Nd:Yag laser Pulse width | 10ns |
Diode laser Pulse width | 10-300ms | YAG Bar Size | 6 |
Display | 10.4 inch true color touch screen | Cooling Level | 1-5 Levels (-10 ° C - 5 ° C) |
Working time | Continuously 18 hours without stop | Nd YAG Laser Pulse energy | ≥2000mj |