| Quantity: | |
|---|---|
BMFR25
Newangie
The 1927nm thulium laser is a non-ablative fractional infrared laser whose operating wavelength is close to the maximum absorption peak of water, making it easily absorbed by water. This helps protect surrounding tissue from damage. The 1927nm thulium laser device can precisely deliver thermal energy to the epidermis and upper dermis, creating thousands of tiny treatment zones (MTZs). While this causes significant heating (thermal damage), it typically does not completely vaporize the skin surface. Instead, it induces micro-exfoliation and promotes dermal collagen remodeling. This technology is primarily used for skin surface reconstruction, pigmentation, and regeneration.
Skin regeneration: Treats photoaging, fine lines, and skin texture problems.
Pigmentation management: Effective for melasma, sunspots, and freckles.
Skin regeneration: Stimulates collagen production, resulting in firmer, younger-looking skin.
It strikes an ideal balance between efficacy and safety, falling between ablative and non-ablative treatments.
It has wide applications and significant clinical efficacy.
It boasts excellent safety, making it an ideal choice for people with darker skin tones.
Shorter recovery time and greater treatment comfort.
It delivers long-lasting collagen regeneration.
Laser-assisted drug delivery enhances efficacy.
Fractal Mode: The laser beam is split into hundreds of tiny beams by a special optical system (such as a microlens array), creating a series of tiny treatment zones (MTZs) on the skin while ensuring the surrounding skin remains intact.
Precise Emission: During treatment, the treatment head is typically kept perpendicular to the skin and stationary, moving slightly after each emission to cover the next area.
Wide Range of Adjustable Parameters: Energy density, treatment mode, and spot size can usually be precisely adjusted, providing high flexibility and enabling personalized treatment.
Deeper Penetration: The more concentrated energy effectively penetrates the dermis, resulting in a more pronounced effect on stimulating collagen and elastin regeneration.
Scanning Mode: The laser beam scans an area continuously, rapidly, and uniformly.
Sliding Operation: The treatment head can slide smoothly and continuously along the skin surface, providing very fast treatment speed and efficient large-area coverage.
Parameter Presets: Energy and scanning speed are typically controlled by the device's built-in intelligent program to ensure uniform and safe energy output during high-speed gliding, simplifying operation.
Shallow Depth of Action: Energy is more evenly distributed in the epidermis and superficial dermis, resulting in a gentler, more superficial thermal stimulation.
The working principle of the 1927nm Thulium fractional laser is based on two major theoretical foundations: selective photothermolysis and fractional photothermolysis. Its unique feature lies in the fact that the absorption coefficient of tissue water at the 1927nm wavelength falls precisely between that of traditional non-ablative and ablative lasers, thus achieving adjustable treatment from gentle coagulation to superficial vaporization.
The 1927nm Thulium laser employs fractional output, dividing a single laser beam into tens to hundreds of microbeams, forming uniformly distributed microthermal damage zones (MTZs) on the skin. A large amount of undamaged normal tissue is preserved between the MTZs; this tissue acts as a "cell reservoir," rapidly migrating and repairing the damaged area within 24 hours. Over the following 3-6 months, new collagen gradually regenerates, achieving skin remodeling.
Another important characteristic of the 1927nm Thulium laser is its application value in Laser-Assisted Drug Delivery (LADD).
The laser-induced MTZ temporarily disrupts the epidermal barrier function, creating microchannels in the skin. These channels significantly increase the penetration and absorption of topical medications (such as whitening ingredients, growth factors, and corticosteroids).
Because the MTZ is distributed in a dot matrix pattern, the enhanced drug delivery is targeted, while preserving most of the barrier function of normal skin.
Many patients desire significant and outstanding treatment results without a long recovery period, and the 1927nm Thulium Laser treatment perfectly meets all their needs.
Easily painless
Shortest recovery period
Does not affect daily life or work
Significant results after just one treatment
Improved skin condition
1927nm thulium laser treatment is the fastest skin remodeling solution, with a full-face treatment completed in just 6-8 minutes.
Our 1927nm thulium laser devices feature larger beam diameters (200μm and 350μm) and scan sizes (4 x 10 mm and 6 x 10 mm), significantly improving treatment efficiency.
Easy-to-navigate display with customizable options for Coverage Rate, Total Energy, Density, and Interval.
We support language and software customization to meet your diverse needs and help you stand out in your target market.
Machine Type | 1927nm Thulium Laser |
Wavelength | 1927nm |
Laser Power | 30W |
Energy | 1-300mJ |
Working Mode | Fractional, Pulse, Super Pulse |
Tip Size | 30mm |
Pulse Width | 0.1-10ms |
Graphic Size | 1x1mm-20x20mm |
Scan Mode | Order, Center or Random |
Scan Graphic | Rectangle, Square, Triangle, Round, Elipse, Hexagon |
Spot Distance | 0.1-2mm |
Cooling System | Air Cooling |
The 1927nm thulium laser is a non-ablative fractional infrared laser whose operating wavelength is close to the maximum absorption peak of water, making it easily absorbed by water. This helps protect surrounding tissue from damage. The 1927nm thulium laser device can precisely deliver thermal energy to the epidermis and upper dermis, creating thousands of tiny treatment zones (MTZs). While this causes significant heating (thermal damage), it typically does not completely vaporize the skin surface. Instead, it induces micro-exfoliation and promotes dermal collagen remodeling. This technology is primarily used for skin surface reconstruction, pigmentation, and regeneration.
Skin regeneration: Treats photoaging, fine lines, and skin texture problems.
Pigmentation management: Effective for melasma, sunspots, and freckles.
Skin regeneration: Stimulates collagen production, resulting in firmer, younger-looking skin.
It strikes an ideal balance between efficacy and safety, falling between ablative and non-ablative treatments.
It has wide applications and significant clinical efficacy.
It boasts excellent safety, making it an ideal choice for people with darker skin tones.
Shorter recovery time and greater treatment comfort.
It delivers long-lasting collagen regeneration.
Laser-assisted drug delivery enhances efficacy.
Fractal Mode: The laser beam is split into hundreds of tiny beams by a special optical system (such as a microlens array), creating a series of tiny treatment zones (MTZs) on the skin while ensuring the surrounding skin remains intact.
Precise Emission: During treatment, the treatment head is typically kept perpendicular to the skin and stationary, moving slightly after each emission to cover the next area.
Wide Range of Adjustable Parameters: Energy density, treatment mode, and spot size can usually be precisely adjusted, providing high flexibility and enabling personalized treatment.
Deeper Penetration: The more concentrated energy effectively penetrates the dermis, resulting in a more pronounced effect on stimulating collagen and elastin regeneration.
Scanning Mode: The laser beam scans an area continuously, rapidly, and uniformly.
Sliding Operation: The treatment head can slide smoothly and continuously along the skin surface, providing very fast treatment speed and efficient large-area coverage.
Parameter Presets: Energy and scanning speed are typically controlled by the device's built-in intelligent program to ensure uniform and safe energy output during high-speed gliding, simplifying operation.
Shallow Depth of Action: Energy is more evenly distributed in the epidermis and superficial dermis, resulting in a gentler, more superficial thermal stimulation.
The working principle of the 1927nm Thulium fractional laser is based on two major theoretical foundations: selective photothermolysis and fractional photothermolysis. Its unique feature lies in the fact that the absorption coefficient of tissue water at the 1927nm wavelength falls precisely between that of traditional non-ablative and ablative lasers, thus achieving adjustable treatment from gentle coagulation to superficial vaporization.
The 1927nm Thulium laser employs fractional output, dividing a single laser beam into tens to hundreds of microbeams, forming uniformly distributed microthermal damage zones (MTZs) on the skin. A large amount of undamaged normal tissue is preserved between the MTZs; this tissue acts as a "cell reservoir," rapidly migrating and repairing the damaged area within 24 hours. Over the following 3-6 months, new collagen gradually regenerates, achieving skin remodeling.
Another important characteristic of the 1927nm Thulium laser is its application value in Laser-Assisted Drug Delivery (LADD).
The laser-induced MTZ temporarily disrupts the epidermal barrier function, creating microchannels in the skin. These channels significantly increase the penetration and absorption of topical medications (such as whitening ingredients, growth factors, and corticosteroids).
Because the MTZ is distributed in a dot matrix pattern, the enhanced drug delivery is targeted, while preserving most of the barrier function of normal skin.
Many patients desire significant and outstanding treatment results without a long recovery period, and the 1927nm Thulium Laser treatment perfectly meets all their needs.
Easily painless
Shortest recovery period
Does not affect daily life or work
Significant results after just one treatment
Improved skin condition
1927nm thulium laser treatment is the fastest skin remodeling solution, with a full-face treatment completed in just 6-8 minutes.
Our 1927nm thulium laser devices feature larger beam diameters (200μm and 350μm) and scan sizes (4 x 10 mm and 6 x 10 mm), significantly improving treatment efficiency.
Easy-to-navigate display with customizable options for Coverage Rate, Total Energy, Density, and Interval.
We support language and software customization to meet your diverse needs and help you stand out in your target market.
Machine Type | 1927nm Thulium Laser |
Wavelength | 1927nm |
Laser Power | 30W |
Energy | 1-300mJ |
Working Mode | Fractional, Pulse, Super Pulse |
Tip Size | 30mm |
Pulse Width | 0.1-10ms |
Graphic Size | 1x1mm-20x20mm |
Scan Mode | Order, Center or Random |
Scan Graphic | Rectangle, Square, Triangle, Round, Elipse, Hexagon |
Spot Distance | 0.1-2mm |
Cooling System | Air Cooling |
