High Peak Power ⟡ Shortest Picosecond Laser Various Wavelengths ⟡ Versatile Treatments Double Pulse Feature Pico Clear
PICO CLEAR presents a new era in skin rejuvenation and tattoo removal, offering optimal results for the wrinkle reduction, removal of colorful tattoos and benign pigmented lesions with just few treatments.
Shortest pulse duration, enabling high peak power
Alma’s PICO CLEAR offers top-line technology featuring the shortest pulse duration in the market of 300-350 picoseconds.
The ultra-short energy burst ensures optimal tattoo removal results with only few treatments. This state-of-the-art flexible platform allows the practitioner to control multiple function parameters to create tailored treatments: wavelength, energy level, spot size, energy delivery mode and repetition rate.
Offers 9 spot sizes options, ranging between 2 and 10mm, addressing various types, severities and depths of pigmented lesions and tattoos. The Picolor applicator can be used both in Nd:YAG (1064nm) mode and Double Nd:YAG (532nm) mode, using simple on-screen setup.
Employs a fractional delivery method which creates pixel-sized perforations in a 7×7 non-ablative pattern, leaving the surrounding tissue intact. These microinjury sites trigger a wound healing process that strengthens collagen and stimulates neo collagenesis, completely rejuvenating the target tissue. Five distinct treatment depths are available for maximum flexibility and precision.
Homogenizer 1064 & 532
Square homogenized laser beam profile featuring flat-top energy signature for uniform and consistent surface coverage, preventing hot spots. This applicator offers two footprint options – a 3 X 3 mm square and a 5 X 5 mm square.
CLEAR-Y & CLEAR-R
These applicators extend the Picolor applicator’s capabilities, offering two additional wavelengths, targeting challenging tattoo colors. The CLEAR-Y applicator is emitting 585nm wavelength specifically targeting sky blue color. The CLEAR-R applicator is emitting 650nm wavelength specifically targeting green and teal colors.