LAMIS XL 808nm HAIR REMOVAL DIODE LASER
The MOST ADVENCED 808nm Hair Removal & Tightening Laser System Max Laser Power
Laser Type: Diode Laser with HPFD (High Power Forced Diode) Technology
Wavelength: 808 nm
Spot Size: 12 × 14 mm
Cooling System: High capability cooling with 5°C sapphire contact cooling
Applications: Hair Removal / Skin Tightening
Target: All skin types, all body areas
Dimensions: 350 mm × 550 mm × 1000 mm
HPFD (High Power Forced Diode) Safety System
Advanced power delivery technology guarantees beam density and power safety, ensuring consistent, controlled energy delivery across all treatment parameters.
5°C Sapphire Contact Cooling
High-capacity cooling system maintains continuous epidermal protection at 5°C, minimizing pain during therapy and enabling safe treatment of all skin types.
Fast Treatment with 12×14 mm Spot Size
Wide beam size enables rapid coverage of large body areas—reducing procedure time and improving patient throughput.
Various Applications & Skin Types
Highly effective treatment for all indications and all skin types—from light to dark, fine to coarse hair.
Overview
Engineered for clinical efficiency, this platform features a 12×14 mm spot size for rapid treatment coverage, while the high-capacity cooling system maintains the sapphire tip at 5°C—protecting epidermis and minimizing patient discomfort throughout treatment. Full ODM/OEM customization enables complete brand integration.
Applications
Hair Removal – All Body Areas
Skin Tightening
Working Principle
Sapphire Contact Cooling: The handpiece tip maintains continuous contact at 5°C throughout treatment, actively cooling the epidermis while allowing therapeutic energy to reach deeper follicular structures. This protects melanin-containing epidermal cells from thermal injury, enabling safe treatment of darker skin types.
HPFD Technology: Guarantees consistent beam density and power delivery across the entire 12×14 mm spot, ensuring uniform treatment effect and predictable clinical outcomes.
End-Point Confirmation: Visual and tactile feedback confirms adequate energy delivery to target follicles, optimizing treatment efficacy.
