| Customization: | Available |
|---|---|
| Type: | 1940nm Laser |
| Theory: | Laser |
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The 1940nm wavelength corresponds precisely to the peak absorption coefficient of water molecules in biological tissue.
Compared with traditional vascular wavelengths that primarily target hemoglobin, the 1940nm laser interacts directly with intracellular and extracellular water, enabling a fundamentally different and more controlled treatment mechanism.
This water-specific absorption allows laser energy to be:
Rapidly absorbed
Precisely confined
Predictably converted into heat
As a result, thermal action is localized at the vessel wall, rather than dispersed within circulating blood.
When the 1940nm laser energy is delivered through the fiber:
Water molecules within the endothelial layer and perivascular tissue absorb the energy instantly
Heat generation occurs inside the vessel wall, not in the blood column
Thermal diffusion is minimal, ensuring controlled depth and lateral spread
This selective photothermal response allows:
Precise vessel wall contraction
Reliable closure without explosive boiling
Reduced risk of vessel rupture
Laser energy is selectively absorbed by water surrounding the vein wall, rapidly raising the local temperature to the therapeutic threshold.
The absorbed energy causes:
Dehydration of endothelial cells
Structural protein denaturation
Immediate contraction and sealing of the vessel wall
This process can be understood as a controlled photothermal sealing effect, rather than destructive ablation.
After successful closure:
Blood flow ceases within the treated vein
The vessel gradually transforms into a fibrous cord
The fibrotic tissue is metabolized and absorbed by the body over time
This leads to long-term or permanent elimination of the target vessel.
Virtually Bruise-Free Treatment
As the laser targets water instead of hemoglobin, vessel rupture and red blood cell leakage are minimized, resulting in very low post-treatment bruising.
Low Risk of Hyperpigmentation
Highly confined thermal action reduces collateral tissue damage and significantly lowers the risk of post-inflammatory hyperpigmentation.
Simultaneous Skin Tightening Effect
Controlled thermal stimulation promotes collagen contraction and remodeling in the dermis, improving skin firmness while treating veins.
Enhanced Patient Comfort
Precise energy delivery minimizes nerve stimulation, leading to reduced discomfort and shorter recovery time.
Superficial vascular lesions
Varicose and spider veins
Facial and body vascular treatments
Skin tightening and dermal remodeling
Aesthetic and medical vascular procedures
Suitable for professional use in:
Medical aesthetic clinics
Dermatology centers
Vascular treatment facilities
| Item | Specification |
|---|---|
| Laser Wavelength | 1940nm + 635nm (Aiming Beam) |
| Output Power | 8W / 12W / 15W |
| Output Mode | Pulse Mode / Continuous Mode |
| Pulse Width | 15ms - 60ms |
| Frequency | 1 - 9Hz |
| Fiber Type | Fiber-optic coupling |
| Fiber Core Diameter | ≥200μm |
| Cooling System | Air cooling |
| Aiming Beam | 635nm |
| Operation Interface | 12.0-inch touch screen |
| Language | English / OEM optional |
| Input Voltage | AC 100-240V, 50/60Hz |
| Machine Dimensions | 450 × 320 × 260 mm |
| Flight Case Dimensions | 530 × 400 × 320 mm |
| Net Weight | 15 kg |
| Gross Weight | 20 kg |
High-stability laser source with precise energy control
Fiber delivery system for flexible and accurate operation
Large touch screen for intuitive parameter adjustment
Multiple power options to meet different clinical requirements
Compact design with professional flight case for easy transport
Professional operation training is recommended before clinical use
Avoid treatment on infected or inflamed skin areas
Proper eye protection must be worn during operation
Follow standard post-treatment skin care guidelines
Patients with severe coagulation disorders
Active skin infections in the treatment area
Pregnancy (depending on local medical regulations)
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