2016 FP CO2 Fractional Laser Scar Removal Skin Vaginal Rejuvenation Resurfacing Fractional Co2 Laser Equipment Stretch Mark Removal
USD $14,000 - $19,000 /Set
Min.Order:1 Set
Beijing Fupeng Photoelectricity Technology Ltd.
Theory - co2 fractional laser
2016 FP CO2 Fractional Laser Scar removal skin resurfacing fractional co2 laser equipment
Theory
The carbon dioxide laser ( fractional co2 laser ) was one of the earliest gas lasers to be developed (invented by Kumar Patel of Bell Labs in 1964, and is still one of the most useful. Carbon dioxide lasers are the highest-power continuous wave lasers that are currently available. They are also quite efficient: the ratio of output power to pump power can be as large as 20%.
The fractional co2 laser produces a beam of infrared light with the principal wavelength bands centering around 9.4 and 10.6 micrometers. With fractional laser resurfacing the laser beam is broken up or fractionated into many small micro beams which are separated so that when they strike the skin surface small areas of the skin between the beams are not hit by the laser and left intact. These small areas of untreated skin promote a much more rapid recovery and healing with less risk of complications. The small areas treated by the fractional micro beams, called micro treatment zones, cause sufficient laser injury to promote new collagen production and resultant facial skin rejuvenation.
Application
1. Application Range of Fractional treatment handpiece
a. Large pores, Fine lines, Skin tightening and whitening, Skin loosen(Deep Wrinkles), Stretch marks.
b. Various Scars: Burn Scars, Acne Scars, Surgical Scars and Keloid;
c. Reconstruction of photoaging skin.
2. Application Range of Incision Handpiece
a. Via multiple handles it can be adapted to Gynecology, ENT, Neurology and general surgery
b. In cosmetic surgery, it can be adapted to incisions for Blephaplasty, Skin Tags and Ingrow Nails, Compound Nevus and Intra Dermal Nevus etc
Laser Type | Wavelength:10600nm |
Power ≤30W | Output mode: (CW),SP),(CPG) |
output mode: Continuous, super pulse,fractional | Pulse width:0.067ms-6.7ms |
Focal Spot diameter:80μm-2000μm adjustable Application:
1. Application Range of Fractional treatment handpiece 2. Application Range of Incision Handpiece | Scan Mode:free scan; Sequence scan; maximum distance scan |
1Pulse Energy 10MJ-200MJ every steeping 2MJ | Pulse Interval:1ms-100ms every stepping 0.1ms |
Figure optionSquareRound Ellipse RectangleTriangleLineHexagon | Light conducting system 7 jointed arms to conduct light |
Focal Spot:6x6,12x12,18×18,24x24 CO2 laser system The CO2 laser with a specific wavelength of 10.6 nm can be absorbed by human body tissue (no matter what color the skin is) by nearly 100%. Through laser emitter, the micropulsed laser beam shoots on the target skin in nanometer level to achieve a controllable precise treatment .The dimension of shooting area only can be measured in nanometer, which is precise enough for operators to control and adjust the treated depth andlayer according to the clinical diagnosis. The energy of CO2 laser is even and steady. Its focused energy aims only at target tissue without any injury to surroundings. It is the heat and electromagnetic effect of the laser that people use to conduct non-blood or less-blood cutting, cauterizing, gasification and accurate microsurgery so as to avoid skin burnt. During the treatment, biochemical reactions of optical-thermal accelerate collagen reproduction and skin recovery,after exfoliation of the tiny scar; fresh and smooth skin can be regenerated. The device outputs invisible laser. In order to operate with more ease, red semiconductor laser has been added to indicate. |
Scan pattern size:1x1cm2,2x2cm2,3x3cm2 |
Cooling system:Air cooling | nsurance Standard:Max10A |
Technology of Ultrapulse
Mainly let the original average output of the laser energy concentrated in a very short period of time then output, due to the high pulse power, short time, and more round spot, the pressure on the surface from laser heat transfer effects is low (small heat-affected zone).