One system to treat them all
- 20 HZ operation at 1.6 J pulse
- Fast operation and efficacy
- Higher power GN mode – 3.5 Joules
TRI-Beam Premium is an integrated platform offering you the most reliable and efficient combination of
lasers available. You no longer need multiple systems to treat a single multicolor tattoo. The result is a
more cost-effective platform, greater patient throughput, and a more reliable device. TRI-Beam Premium
includes a fractional-focused lens array and free-running mode for skin revitalization.
Rich-PTP™ (Photo-acoustic Toning Pulse) technology is unique to TRI-BEAM. Even with larger spot sizes
(adjustable 2 to 10 mm) Rich-PTP™ mode distributes high peak energy into a rapid double pulse allowing
for optimal tissue interaction. Rich-PTP™ mode also optimizes Thermal Relaxation Time for targeted
melanosomes when treating melasma. When it comes to comfortably treating even the most difficult
tattoos and pigmented lesions, Tri-Beam is the answer.
Gen Technique™ is a Quasi-Long Pulse (Pulse width 300 μs) utilizing the 1,064 nm wavelength for deep
penetration. Gen Technique™ combines thermal lifting and toning by using the fundamentals of selective photothermolysis.
The peeling effect that results makes Gen Technique™ a phenomenal treatment for skin
revitalization and firming.
Fractional Mode: Treat with confidence
Fractional Mode delivers a high peak energy pulse while sparing much of the epidermis. By minimizing the
possibility of over-treating targeted chromophores and surrounding tissue, Fractional Mode enables users
to treat conditions such as, Café au lait, Nevus of Ota and Solar Lentigines with a high level of confidence
and minimal side effects.
TriBeam’s proprietary Fractional handpiece serves a unique purpose. Even with optimal wavelengths,
energy and pulse widths, Q-Switched Nd:YAG operators still have the propensity to over treat patients with
melasma. The slightest adjustments in fluence can exacerbate this skin condition. Tri-Beam Fractional
allows for peak energy and absorption into targeted chromophores while reducing bulk heating. This
capability leads to faster clearance without recurrence or PIH