| Quantity: | |
|---|---|
Treatment theory:
How 980nm and 1470nm work for lipolysis:
980nm wavelength's thermal effect. Energy of 980nm laser is absorbed by water and chromophores. This generates heat, which can increase the temperature in the fat tissue. The increased temperature can distroy the lipid membranes of fat cells and trigger a process of lipolysis.
The heat generated by the 980nm laser can also improve blood circulation which helps transport the released fatty acids and glycerol away from the site, facilitating the breakdown and removal of fat.
1470nm's Selective absorption. The 1470nm wavelength is preferentially absorbed by water in the fat tissue. This selective absorption leads to a more targeted heating of the fat cells.
The heat generated causes a controlled coagulation of small blood vessels and stimulates lipolysis. The coagulation of blood vessels can reduce bleeding and bruising during and after the treatment. The lipolysis process breaks down the triglycerides stored in the fat cells into free fatty acids and glycerol, which can then be metabolized by the body.
Therefore, the combination of 980nm and 1470nm may offer synergistic effects for lipolysis. The different absorption characteristics and thermal effects of the two wavelengths can target different components of the adipose tissue and enhance the overall efficacy of fat reduction.
Treatment scope:
Accurately remove stubborn fat from the abdomen, arms, buttocks, thighs, etc.
It can also be refined and dissolved in parts that cannot be reached by traditional methods such as jaw and neck.
Facial lifting, firming and wrinkle removal.
Technology Parameters:
 Output | Fiber-optic coupling | Operation interface | 8.0 inch |
| Laser wavelength | 980nm+1470nm | language | English or OEM |
| Output Power | 980nm 20W+1470nm 3W or other options | Length of Fiber | 3m |
| Pulse width | 1ms—60ms | Fiber core diameter | 600μm |
| Frequency | 1-9Hz | Cooling | Air cooling |
| Mode | Pulse mode ,Continuous mode | Net/Gross weight | 5KG/10KG |
| Aiming Beam | 650nm | Machine Dimensions | 360mm*340mm*215mm |
| Input | AC :100-240V、50/60Hz | Flight case Dimensions | 460mm*440mm*290mm |
More knowledges about 980nm and 1470nm wavelengths:
980nm wavelength
1. Medical field
Laser treatment of varicose veins: 980nm laser has a high absorption rate for hemoglobin in the blood. When treating varicose veins, the laser is introduced into the diseased veins through optical fiber. The energy emitted is absorbed by hemoglobin to produce a thermal effect, which damages the vascular endothelium and gradually closes, thereby preventing blood reflux and achieving the purpose of treatment. This minimally invasive surgical method has the advantages of less trauma, faster recovery, and high aesthetics.
2. Dental application
In dental treatment, 980nm laser can be used for soft tissue surgery, such as removing gingival hyperplasia and treating oral ulcers. Its precise cutting ability can reduce damage to surrounding healthy tissues. At the same time, the thermal effect of the laser also has a certain bactericidal and hemostatic effect, which helps promote wound healing.
3. Beauty field
980nm laser is often used for hair removal. It can selectively destroy the melanin in the hair follicles, making the hair lose its ability to grow, while causing less damage to the surrounding skin tissue. Compared with traditional hair removal methods, laser hair removal is more lasting and more convenient to operate.
4. Industrial field
Material processing: In industrial processing such as laser cutting, welding and marking, 980nm laser can be used to process metal and non-metal materials. For example, in the electronics industry, it can be used for fine cutting and welding of circuit boards; in automobile manufacturing, it can be used to process body parts. Its high energy density and precise control ability make the processing more accurate and the quality more stable.
Sensor application: 980nm laser can be used to manufacture optical sensors, such as distance sensors, displacement sensors, etc. These sensors are widely used in industrial automation, robotics, security monitoring and other fields, and can achieve high-precision measurement and detection.
1470nm wavelength
1. Medical field
Prostate disease treatment: 1470nm laser is widely used in urology to treat prostate hyperplasia. It can efficiently vaporize prostate tissue, and at the same time has a good hemostatic effect, reducing the amount of bleeding and the risk of complications during surgery. This minimally invasive surgical method brings less trauma and faster recovery time to patients.
Tumor treatment assistance: In tumor treatment, 1470nm laser can be used for thermal therapy or photodynamic therapy of tumors. By precisely delivering laser energy to the tumor site, raising the temperature of the tumor tissue or stimulating photosensitizers to produce chemical reactions, tumor cells are destroyed to achieve the purpose of treatment.
Minimally invasive surgical tools: In other minimally invasive surgeries, such as laparoscopic surgery, hysteroscopic surgery, etc., 1470nm laser can be used as a fine cutting and hemostasis tool. It can operate accurately in a small surgical space, improving the safety and effectiveness of the operation.
2. Industrial field
Fiber optic communication: 1470nm wavelength laser has certain application value in fiber optic communication. It can be used as a transmission light source for optical signals and combined with lasers of other wavelengths to increase the capacity and transmission distance of the communication system.
Material processing: In terms of material processing, 1470nm laser can be used for cutting, welding and marking some specific materials. For example, for some transparent materials, 1470nm laser has stronger penetration ability and can achieve more precise processing effects.
Scientific research field: In scientific research, 1470nm laser can be used in fields such as spectral analysis and laser cooling. It provides researchers with a precise tool for studying the properties of substances and exploring new physical phenomena.
Treatment theory:
How 980nm and 1470nm work for lipolysis:
980nm wavelength's thermal effect. Energy of 980nm laser is absorbed by water and chromophores. This generates heat, which can increase the temperature in the fat tissue. The increased temperature can distroy the lipid membranes of fat cells and trigger a process of lipolysis.
The heat generated by the 980nm laser can also improve blood circulation which helps transport the released fatty acids and glycerol away from the site, facilitating the breakdown and removal of fat.
1470nm's Selective absorption. The 1470nm wavelength is preferentially absorbed by water in the fat tissue. This selective absorption leads to a more targeted heating of the fat cells.
The heat generated causes a controlled coagulation of small blood vessels and stimulates lipolysis. The coagulation of blood vessels can reduce bleeding and bruising during and after the treatment. The lipolysis process breaks down the triglycerides stored in the fat cells into free fatty acids and glycerol, which can then be metabolized by the body.
Therefore, the combination of 980nm and 1470nm may offer synergistic effects for lipolysis. The different absorption characteristics and thermal effects of the two wavelengths can target different components of the adipose tissue and enhance the overall efficacy of fat reduction.
Treatment scope:
Accurately remove stubborn fat from the abdomen, arms, buttocks, thighs, etc.
It can also be refined and dissolved in parts that cannot be reached by traditional methods such as jaw and neck.
Facial lifting, firming and wrinkle removal.
Technology Parameters:
| Output | Fiber-optic coupling | Operation interface | 8.0 inch |
| Laser wavelength | 980nm+1470nm | language | English or OEM |
| Output Power | 980nm 20W+1470nm 3W or other options | Length of Fiber | 3m |
| Pulse width | 1ms—60ms | Fiber core diameter | 600μm |
| Frequency | 1-9Hz | Cooling | Air cooling |
| Mode | Pulse mode ,Continuous mode | Net/Gross weight | 5KG/10KG |
| Aiming Beam | 650nm | Machine Dimensions | 360mm*340mm*215mm |
| Input | AC :100-240V、50/60Hz | Flight case Dimensions | 460mm*440mm*290mm |
More knowledges about 980nm and 1470nm wavelengths:
980nm wavelength
1. Medical field
Laser treatment of varicose veins: 980nm laser has a high absorption rate for hemoglobin in the blood. When treating varicose veins, the laser is introduced into the diseased veins through optical fiber. The energy emitted is absorbed by hemoglobin to produce a thermal effect, which damages the vascular endothelium and gradually closes, thereby preventing blood reflux and achieving the purpose of treatment. This minimally invasive surgical method has the advantages of less trauma, faster recovery, and high aesthetics.
2. Dental application
In dental treatment, 980nm laser can be used for soft tissue surgery, such as removing gingival hyperplasia and treating oral ulcers. Its precise cutting ability can reduce damage to surrounding healthy tissues. At the same time, the thermal effect of the laser also has a certain bactericidal and hemostatic effect, which helps promote wound healing.
3. Beauty field
980nm laser is often used for hair removal. It can selectively destroy the melanin in the hair follicles, making the hair lose its ability to grow, while causing less damage to the surrounding skin tissue. Compared with traditional hair removal methods, laser hair removal is more lasting and more convenient to operate.
4. Industrial field
Material processing: In industrial processing such as laser cutting, welding and marking, 980nm laser can be used to process metal and non-metal materials. For example, in the electronics industry, it can be used for fine cutting and welding of circuit boards; in automobile manufacturing, it can be used to process body parts. Its high energy density and precise control ability make the processing more accurate and the quality more stable.
Sensor application: 980nm laser can be used to manufacture optical sensors, such as distance sensors, displacement sensors, etc. These sensors are widely used in industrial automation, robotics, security monitoring and other fields, and can achieve high-precision measurement and detection.
1470nm wavelength
1. Medical field
Prostate disease treatment: 1470nm laser is widely used in urology to treat prostate hyperplasia. It can efficiently vaporize prostate tissue, and at the same time has a good hemostatic effect, reducing the amount of bleeding and the risk of complications during surgery. This minimally invasive surgical method brings less trauma and faster recovery time to patients.
Tumor treatment assistance: In tumor treatment, 1470nm laser can be used for thermal therapy or photodynamic therapy of tumors. By precisely delivering laser energy to the tumor site, raising the temperature of the tumor tissue or stimulating photosensitizers to produce chemical reactions, tumor cells are destroyed to achieve the purpose of treatment.
Minimally invasive surgical tools: In other minimally invasive surgeries, such as laparoscopic surgery, hysteroscopic surgery, etc., 1470nm laser can be used as a fine cutting and hemostasis tool. It can operate accurately in a small surgical space, improving the safety and effectiveness of the operation.
2. Industrial field
Fiber optic communication: 1470nm wavelength laser has certain application value in fiber optic communication. It can be used as a transmission light source for optical signals and combined with lasers of other wavelengths to increase the capacity and transmission distance of the communication system.
Material processing: In terms of material processing, 1470nm laser can be used for cutting, welding and marking some specific materials. For example, for some transparent materials, 1470nm laser has stronger penetration ability and can achieve more precise processing effects.
Scientific research field: In scientific research, 1470nm laser can be used in fields such as spectral analysis and laser cooling. It provides researchers with a precise tool for studying the properties of substances and exploring new physical phenomena.
