Product Details
Place of Origin: CHINA
Brand Name: ALYUSEN
Certification: CE
Model Number: al018
Payment & Shipping Terms
Minimum Order Quantity: 1pc
Price: Price Negotiable
Packaging Details: Flight Case
Delivery Time: 5-8 days
Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 1000 units delivered in one month
Type: |
Laser |
Style: |
1064nm/532nm/1320nm |
Feature: |
Whitening, Skin Rejuvenation, Pigmentation Correctors, Tattoo Removal, Whitening, Skin Rejuvenation, Pigmentation Correctors, Tattoo Removal |
Product Name: |
Picosecond Laser,Picosecond Laser Freckle And Tattoo Removal ND YAG Laser Machine,NDYag Laser Tattoo Removal Machine |
Certification: |
CE |
Q-switch: |
Yes |
Dimension: |
60*47*38 Cm |
Frequency: |
1-10Hz |
Laser Type: |
Picosecond Laser |
Power Supply: |
AC220V/50Hz |
Product Name: |
Picosecond Laser Tattoo Removal Machine |
Service: |
OEM/ODM |
Warranty: |
1 Year |
Voltage: |
110V/220V |
Type: |
Laser |
Style: |
1064nm/532nm/1320nm |
Feature: |
Whitening, Skin Rejuvenation, Pigmentation Correctors, Tattoo Removal, Whitening, Skin Rejuvenation, Pigmentation Correctors, Tattoo Removal |
Product Name: |
Picosecond Laser,Picosecond Laser Freckle And Tattoo Removal ND YAG Laser Machine,NDYag Laser Tattoo Removal Machine |
Certification: |
CE |
Q-switch: |
Yes |
Dimension: |
60*47*38 Cm |
Frequency: |
1-10Hz |
Laser Type: |
Picosecond Laser |
Power Supply: |
AC220V/50Hz |
Product Name: |
Picosecond Laser Tattoo Removal Machine |
Service: |
OEM/ODM |
Warranty: |
1 Year |
Voltage: |
110V/220V |
In picosecond lasers, a mechanism known as mode-locking is employed to generate ultra-short pulses. Mode-locking involves synchronizing the phases of the laser modes, which are the different frequencies or wavelengths that make up the laser light. By achieving phase coherence between these modes, the laser output consists of a train of ultra-short pulses with durations on the order of picoseconds.
The key principle behind picosecond lasers is the use of ultra-short pulses to achieve precise energy delivery. The laser medium is excited using various techniques, such as optical pumping or electrical stimulation, which causes the atoms or electrons within the medium to transition to higher energy states. When these excited particles return to their lower energy states, they emit photons of light.
The principle of a picosecond laser is based on the generation and emission of ultra-short pulses of light that last for picoseconds, which is one trillionth of a second. These lasers operate by utilizing a laser medium, which can be a solid-state crystal or a semiconductor material, and a method of pulse generation.
Additionally, the ultra-short pulses of picosecond lasers can induce nonlinear effects in certain materials. These effects, such as multiphoton absorption or harmonic generation, allow for advanced imaging techniques and precise material processing applications.
The emitted light is then amplified within the laser cavity, which is typically a resonant cavity formed by mirrors at the ends of the laser medium. The cavity reflects the photons back and forth, causing them to interact with the excited particles and stimulate further emission of photons through a process called stimulated emission. This results in the generation of a coherent beam of laser light.
The ultra-short pulse duration of the picosecond laser is crucial for its applications. It allows for precise targeting and control of energy delivery, as the short pulses limit the amount of heat transferred to the surrounding material or tissue. This is particularly advantageous in fields like tattoo removal, where precise and selective destruction of pigmented particles is desired while minimizing damage to the surrounding skin.
In summary, the principle of a picosecond laser involves generating ultra-short pulses of light using a laser medium and mode-locking techniques. The ultra-short pulse duration enables precise energy delivery, while the coherent and intense nature of the laser beam finds applications in a variety of fields such as medicine, manufacturing, scientific research, and more.
The role of picosecond laser technology encompasses a wide range of applications across various fields. Here are some key roles and functions of picosecond lasers:
1. Tattoo and Pigmented Lesion Removal: Picosecond lasers have become an essential tool in the field of dermatology for tattoo removal and treatment of pigmented lesions. The ultra-short pulses of the laser effectively target and fragment the pigmented particles, breaking them down into smaller fragments that can be naturally eliminated by the body. This technology has revolutionized tattoo removal, allowing for faster and more efficient clearance of tattoos with reduced risk of scarring or damage to the surrounding skin.
3. Dermatological Procedures: Picosecond lasers are also utilized in various dermatological procedures to improve skin texture and tone. They can effectively treat acne scars, age spots, melasma, and other pigmentary disorders. By stimulating collagen production and promoting skin remodeling, picosecond lasers can help rejuvenate the skin and achieve a more youthful appearance.
In summary, the role of picosecond lasers is multi-faceted and extends across diverse domains. From tattoo removal and dermatological procedures to material processing, biomedical imaging, and scientific research, picosecond lasers offer precise, efficient, and versatile solutions. Their unique capabilities, including ultra-short pulse durations and high peak power, have revolutionized numerous fields and continue to drive advancements in technology and scientific understanding.