Laser Sources

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EFR 100 WATT CO2 TUBE, 60, 80, 100, 130 W also available. with standard warranty. RECI and Yongli Also available 

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Photonik's Solar Simulators reproduce the sun’s irradiance according to:
•ASTM E927 Specification for Solar Simulation for Photovoltaic Testing
•IEC 60904 9 Solar Simulator performance requirements
•JIS C 8912 Solar simulators for crystalline solar cells and modules
•JIS C 8933 Solar Simulators For Amorphous Solar Cells
•JIS C8942 Solar Simulator for Multi junction solar cells and modules
•IEC 61215 Crystalline silicon terrestrial photovoltaic (PV) modules Design qualification and typeapproval•
IEC 61646 Thin film terrestrial photovoltaic (PV) modules Design qualification and type approval
•US Military Standard MIL STD810 H_Method 505.7 For Solar Radiation (Sunshine)
•DIN 75220 Ageing of Automotive Components in Solar Simulation Units
•COLIPA/ ISO24443 and ISO24443 for dermatological, cosmetic and sunscreen testing

Additional Information:

• Production Capacity: 7
• Delivery Time: 10 weeks

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Fiber Laser Source 20/30/50/1000/3000W available from MAX, Raycus, JPT, Super and IPG laser, 2 Years of warranty 100000 Hour

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W series/ T series both available

• T1, T2, T4
• W1, W2, W4, W6, W8 Also available

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Diode laser Module with many wavelength and power options available.
-High Quality diode laser
-AC/DC Modulation capability
-Laser combiner also available on request
-Upto 3 years of warranty

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Max, Raycus sources Available, 20, 30, 50W, This Laser sources can be used in laser Marking, diamond cutting and many other applications

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"CO2 Laser Tube and RF Tube: Precision Laser Solutions" - Step into the world of high-performance laser technology with our CO2 Laser Tube and RF Tube offerings. These advanced laser sources are engineered to deliver precise and powerful laser beams, ideal for a wide range of industrial and scientific applications.

CO2 Laser Tube: Our CO2 laser tubes utilize carbon dioxide gas as the active medium to produce a highly focused infrared laser beam. With its ability to operate in continuous wave or pulsed mode, the CO2 laser is widely used in cutting, engraving, marking, and various material processing applications. Experience excellent beam quality, high efficiency, and long operational lifespan with our reliable CO2 laser tubes, making them a popular choice in the industry.

RF Tube (Radio Frequency Tube): The RF tube is another type of laser source that uses radiofrequency excitation to generate a laser beam. These tubes offer exceptional stability, power output, and are often used in high-demand industrial applications. They are well-suited for cutting, welding, and drilling tasks that require precision and consistency.

Both the CO2 Laser Tube and RF Tube provide versatility and efficiency, catering to a diverse range of laser processing needs in industries such as manufacturing, electronics, automotive, medical, and more. Experience the cutting-edge performance and reliability of our laser tubes, unlocking new possibilities for your laser-based applications.

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Laser Glass Tube from EFR and RECI: Powering Laser Engraving and Cutting Systems

EFR and RECI are two well-known manufacturers of laser glass tubes, which are crucial components used in laser engraving and cutting machines. These laser tubes are responsible for generating the laser beam that does the actual cutting or engraving work on various materials.

Key Features and Advantages:

1. Laser Power Output: EFR and RECI laser tubes come in different power options, ranging from lower wattages suitable for hobbyists and small businesses to higher wattages suitable for industrial-grade applications.

2. Long Lifespan: These laser tubes are designed for durability and have a relatively long lifespan, providing consistent performance over thousands of hours of operation.

3. Stable Performance: The laser tubes from EFR and RECI offer stable laser output, ensuring reliable and precise cutting and engraving results.

4. Easy Integration: These laser tubes are designed for easy integration into laser engraving and cutting systems, making them user-friendly and accessible for both professionals and beginners.

Applications:

EFR and RECI laser glass tubes are used in a wide range of applications, including:

1. Laser Engraving: The laser tubes can engrave various materials, including wood, acrylic, glass, leather, and many others. They are often employed in the production of personalized gifts, trophies, signage, and artwork.

2. Laser Cutting: These laser tubes are capable of cutting materials such as acrylic, wood, paper, fabric, and thin metals. They find use in the manufacturing of prototypes, models, and intricate designs.

3. Industrial Applications: In higher power configurations, EFR and RECI laser tubes are used in industrial settings for cutting and marking metals, ceramics, and other materials used in manufacturing and fabrication.

Advantages in Different Industries:

• Advertising and Signage: EFR and RECI laser tubes allow for precise and intricate designs in signage and promotional materials.

• Packaging: Laser cutting and engraving enhance packaging designs with high-quality, customizable features.

• Manufacturing: The power and precision of these laser tubes enable efficient production and customization of various products.

• Textiles and Apparel: EFR and RECI laser tubes can cut and engrave fabric for apparel design and textile embellishment.

• Electronics: In electronics manufacturing, laser engraving ensures clear and permanent marking on components.

Whether for small businesses, hobbyists, or large-scale industrial applications, EFR and RECI laser glass tubes are essential components in modern laser engraving and cutting machines, powering a wide range of creative and industrial applications with precision and efficiency.

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Pulsed lasers are lasers that emit light in short pulses rather than a continuous wave. The duration of these pulses can vary, and they are typically categorized based on their pulse widths into three main types: nanosecond (ns), picosecond (ps), and femtosecond (fs) lasers.

1. Nanosecond (ns) Laser: Nanosecond lasers emit pulses with durations typically in the nanosecond range, which is one billionth of a second (10^-9 seconds). These lasers are capable of delivering moderate energy levels in each pulse. They find applications in various fields, such as laser ablation, material processing, marking, and some medical treatments.

2. Picosecond (ps) Laser: Picosecond lasers produce pulses with durations in the picosecond range, which is one trillionth of a second (10^-12 seconds). These ultrafast lasers can deliver higher peak powers and are used in more delicate material processing tasks, such as micromachining, medical procedures, and precise surface structuring.

3. Femtosecond (fs) Laser: Femtosecond lasers emit pulses with durations in the femtosecond range, which is one quadrillionth of a second (10^-15 seconds). These lasers are exceptionally fast and provide extremely high peak powers. Their unique characteristic of delivering energy in extremely short pulses allows for extremely precise and minimal heat-affected zone material processing. Femtosecond lasers are widely used in applications such as laser eye surgery (LASIK), micro-machining, biomedical research, and fundamental physics experiments.

Each type of pulsed laser offers specific advantages and applications, and the choice of the laser type depends on the particular requirements of the task at hand, such as the desired material interaction, precision, and energy levels needed

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"Fiber Laser Source: Precision for Metal Making, Welding, and Cutting" - Experience the epitome of laser technology with our Fiber Laser Source, designed to deliver unmatched precision and performance for metal making, welding, and cutting applications. Harness the power of high-energy density laser beams, focused through an optical fiber, to effortlessly process various metals with exceptional speed and accuracy. Whether you need to create intricate metal parts, perform robust welding tasks, or achieve clean and precise metal cutting, our Fiber Laser Source is the ideal solution. Benefit from its compact size, energy efficiency, and maintenance-free operation, making it a reliable choice for industrial processes. Embrace the cutting-edge technology of fiber lasers, and empower your manufacturing or fabrication processes to reach new heights of productivity and quality.

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CW laser stands for "Continuous Wave laser." It is a type of laser that emits a continuous, uninterrupted beam of light rather than pulsed bursts. In contrast to pulsed lasers that emit light in short-duration bursts, CW lasers produce a steady output of light energy.

The continuous emission of the laser beam makes CW lasers suitable for various applications, such as cutting, welding, engraving, and materials processing. Their constant output allows for more precise and controlled interactions with the target material.

CW lasers are commonly used in scientific research, medical treatments, telecommunications, laser diode pumping, and many industrial processes where a continuous and steady beam is required.

These lasers can emit light at various wavelengths depending on the specific application and the type of laser medium used. They come in different power levels, ranging from low-power lasers used in laser pointers to high-power lasers utilized in advanced industrial and scientific applications.

CW lasers have proven to be versatile tools with a wide range of uses, making them an essential component in various industries and research fields

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"Laser Surface Texturing: Enhancing Materials and Performance" - Delve into the world of precision engineering with Laser Surface Texturing. This advanced laser processing technique involves using high-energy laser beams to create intricate patterns or textures on the surface of materials. By precisely controlling the laser parameters, such as intensity, scanning speed, and pulse duration, laser surface texturing can achieve various desired effects on materials.

Benefits and Applications: Laser surface texturing offers a multitude of benefits across diverse industries. It can improve the tribological properties of materials, enhance wear resistance, reduce friction, and facilitate better lubrication. Moreover, it is utilized to create microstructures for controlled wettability, improved adhesion, or unique optical effects. Industries such as automotive, aerospace, medical devices, and tooling extensively employ laser surface texturing to optimize the performance and longevity of components.

Precision and Versatility: Laser surface texturing provides unparalleled precision, allowing for the creation of micro or nano-scale patterns with exceptional repeatability. Its non-contact nature ensures minimal material deformation and distortion, preserving the structural integrity of the processed materials. Additionally, laser texturing is highly versatile, accommodating a wide range of materials, including metals, polymers, ceramics, and composites.

Eco-Friendly and Cost-Effective: Laser surface texturing is an environmentally friendly process that reduces the consumption of chemicals and eliminates the need for post-processing steps. The non-contact nature also minimizes tool wear, leading to cost savings and increased production efficiency.

Unlock New Possibilities: Embrace the capabilities of laser surface texturing to unlock new possibilities in material science, engineering, and product design. With the ability to tailor surface characteristics precisely, this technique empowers researchers and manufacturers to develop innovative products with enhanced performance and functionality.

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DPSS (Diode-Pumped Solid-State) lasers are well-suited for diamond cutting and a wide range of other applications. DPSS lasers are a type of pulsed solid-state laser that uses semiconductor diode lasers as the pump source to excite a solid-state laser medium, typically a crystal or a glass. This pumping mechanism allows for efficient conversion of electrical energy into laser light, making DPSS lasers highly efficient and reliable.

For diamond cutting, DPSS lasers offer several advantages:

1. Precision: DPSS lasers produce high-intensity pulses with extremely short durations (ns, ps, or fs). This rapid and precise energy delivery allows for precise material removal, resulting in clean and accurate cuts.

2. Non-contact cutting: Lasers offer a non-contact cutting process, minimizing mechanical stress on the material and reducing the risk of damage or contamination.

3. Minimal heat-affected zone (HAZ): DPSS lasers deliver energy in short pulses, which limits the thermal impact on the surrounding material, reducing the HAZ and preserving the diamond's integrity and quality.

4. Versatility: DPSS lasers can be tailored to different wavelengths depending on the laser medium used. This versatility allows for cutting various materials besides diamonds, such as metals, ceramics, and plastics.

5. Speed: DPSS lasers can achieve high repetition rates, resulting in faster cutting speeds, increasing productivity in industrial applications.

Beyond diamond cutting, DPSS lasers find extensive use in various fields:

• Material Processing: DPSS lasers are utilized for engraving, micromachining, drilling, scribing, and surface structuring across diverse materials.

• Medical Applications: DPSS lasers are employed in ophthalmology, dermatology, dental treatments, and surgery due to their precision and non-invasive nature.

• Scientific Research: DPSS lasers are critical tools in fundamental research, spectroscopy, and imaging applications.

• LIDAR and Sensing: DPSS lasers play a significant role in remote sensing, LIDAR (Light Detection and Ranging), and environmental monitoring.

• Defense and Military: DPSS lasers are used in range finding, target designation, and other military applications.

Overall, DPSS lasers are highly versatile, efficient, and precise tools, making them suitable for diamond cutting and a wide range of other cutting-edge applications across various industries.

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"Diode Laser: Powering Precision in Pumping and Microscopy" - Experience the cutting-edge capabilities of our Diode Laser, tailored for efficient pumping and high-resolution microscopy applications. This versatile laser source offers superior performance, reliability, and versatility, making it an ideal choice for various scientific and industrial uses.

Pumping: Our Diode Laser serves as an efficient pump source for solid-state and fiber lasers. With its high energy density and stable output, it delivers the necessary optical energy to excite the gain medium, enabling the generation of powerful laser beams for cutting-edge research, material processing, and industrial applications.

Microscopy: Unlock new frontiers in microscopy with our Diode Laser. Its narrow linewidth and precise wavelength selection make it ideal for fluorescence microscopy and other high-resolution imaging techniques. Experience exceptional image quality, signal-to-noise ratios, and advanced imaging capabilities, empowering you to make groundbreaking discoveries in the world of microscopy.

Designed for reliability and ease of integration, our Diode Laser offers customizable options to suit your specific requirements. Benefit from its compact form factor, energy efficiency, and low maintenance, ensuring a seamless integration into your pumping and microscopy setups.

Embrace the precision and versatility of our Diode Laser, and explore new possibilities in your scientific research, industrial processes, and microscopy applications. Stay at the forefront of laser technology with our advanced diode laser solutions.

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"Diode Pumped Solid State (DPSS) Laser Module: Precision for Diamond Cutting and Laser Applications" - Embrace the pinnacle of laser technology with our Diode Pumped Solid State (DPSS) Laser Module, meticulously engineered for diamond cutting and a wide range of laser applications. This advanced laser source combines the efficiency of diode lasers with the precision of solid-state lasers, delivering a high-intensity laser beam with exceptional beam quality and stability.

Diamond Cutting: Our DPSS Laser Module provides the ideal tool for precision diamond cutting applications. With its ability to deliver concentrated laser energy, it enables clean and accurate cuts on diamond surfaces, offering improved productivity and reduced material waste.

Laser Applications: The versatility of our DPSS Laser Module extends beyond diamond cutting. It finds application in various industries, including engraving, marking, micromachining, and scientific research. Experience the reliable performance, long lifespan, and maintenance-free operation of our DPSS laser source, ensuring optimal productivity and cost-effectiveness for your laser-based processes.

With precise control and consistent output power, our DPSS Laser Module empowers your operations with efficiency and accuracy. Whether you require custom solutions or standard modules, our DPSS lasers cater to your specific needs, making them an indispensable asset in advanced laser applications. Embrace the power of laser technology and elevate your diamond cutting and laser processing endeavors with our top-of-the-line DPSS Laser Module.