| Customization: | Available |
|---|---|
| Type: | 1940nm Laser |
| Theory: | Laser |
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The 1940nm Laser System represents a next-generation advancement in minimally invasive vascular and aesthetic treatment. Unlike conventional vascular lasers that primarily rely on hemoglobin absorption, this system utilizes a water-peak absorption wavelength (1940nm) to achieve highly controlled and predictable therapeutic outcomes.
At 1940nm, laser energy aligns precisely with the peak absorption spectrum of water in biological tissues. Since human soft tissue contains a high percentage of water, this allows the laser to:
This mechanism ensures that energy is concentrated at the vessel wall instead of dispersing into circulating blood, significantly improving both safety and treatment precision.
When laser energy is transmitted through the fiber-optic system:
This enables a non-explosive, controlled vessel closure process, avoiding the risks associated with traditional high-hemoglobin absorption lasers.
Phase 1: Targeted Thermal Activation
Localized temperature rapidly increases to the therapeutic threshold, initiating controlled tissue response.
Phase 2: Vessel Wall Dehydration & Coagulation
Phase 3: Fibrosis and Natural Absorption
This results in long-term or permanent vascular removal, combined with improved skin quality.
The 1940nm Laser System is designed for both medical vascular treatments and aesthetic skin improvement, offering a dual-benefit solution.
The water-selective mechanism ensures that thermal energy is localized, reducing damage to surrounding tissues and improving procedural safety.
Since hemoglobin is not the primary target, vessel rupture is minimized, significantly reducing post-treatment bruising and recovery time.
Controlled heat distribution lowers the risk of post-inflammatory pigmentation, making it suitable for a wider range of skin types.
Thermal stimulation activates collagen contraction and regeneration, providing visible skin tightening benefits alongside vascular treatment.
| 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 |
Equipped with a precision-engineered laser generator, ensuring consistent output energy and reliable clinical performance.
Flexible fiber-optic transmission enables accurate targeting of treatment areas, including delicate facial vessels.
Available in different power options to meet diverse clinical requirements, from superficial veins to deeper vascular structures.
Q1: What makes 1940nm different from traditional vascular lasers?
A: The 1940nm wavelength targets water instead of hemoglobin, allowing more controlled energy delivery and reducing risks such as bruising and vessel rupture.
Q2: Is the treatment painful?
A: The procedure is generally well tolerated due to precise energy delivery and minimal nerve stimulation. Most patients experience only mild discomfort.
Q3: How many sessions are required?
A: Depending on the size and type of vessels, 1-3 sessions are typically sufficient for visible improvement.
Q4: Is there downtime after treatment?
A: Downtime is minimal. Patients can usually resume normal activities shortly after the procedure.
Q5: Can it be used for both face and body?
A: Yes, the system is suitable for facial and body vascular treatments, as well as skin tightening applications.
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