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Engraving QR Codes on Sapphire Chips with Green Lasers: An Exquisite Fusion of Technology and Elegance
Jul 05 , 2023
Engraving QR Codes on Sapphire Chips with Green Lasers: An Exquisite Fusion of Technology and Elegance QR codes have become an integral part of our lives, allowing us to effortlessly access information with a simple scan. Their undeniable convenience has led to widespread adoption in various industries. And now, with the advent of green lasers, these iconic codes can be delicately engraved onto sa...
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Unveiling the Virtuosity of the 355nm UV Laser: Illuminating the Future of Flex PCB Marking and Scribing
Jul 06 , 2023
Unveiling the Virtuosity of the 355nm UV Laser: Illuminating the Future of Flex PCB Marking and Scribing In the dynamic world of flexible printed circuit boards (Flex PCBs), precision and innovation are paramount. As the demand for smaller, more intricate circuits continues to surge, marking and scribing these flexible marvels present a challenge that requires a touch of brilliance. Enter t...
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Unveiling the Exquisite Architecture of TCO/ITO Layers Through the Mastery of UV Laser
Jul 08 , 2023
Unveiling the Exquisite Architecture of TCO/ITO Layers Through the Mastery of UV Laser Adorning the realm of technological innovation, the intricate structuring of Transparent Conductive Oxide (TCO) and Indium Tin Oxide (ITO) layers has emerged as a celestial symphony of precision and finesse. Within this ethereal composition, the enigmatic radiance of the Ultra-Violet (UV) laser reigns sup...
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Revelations Unveiled: Mastering the Art of TCO/ITO Coating and Structuring with the Enigmatic UV Laser
Jul 08 , 2023
Revelations Unveiled: Mastering the Art of TCO/ITO Coating and Structuring with the Enigmatic UV Laser In the realm of cutting-edge technology, the world of transparent conductive oxide (TCO) and indium tin oxide (ITO) coating and structuring has emerged as an exquisite ballet of precision and finesse, guided by the otherworldly brilliance of the ultraviolet (UV) laser. This intriguing part...
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Unraveling the Distinction: JPG UV Laser vs. RFH UV Laser
Jul 13 , 2023
Unraveling the Distinction: JPG UV Laser vs. RFH UV Laser In the realm of laser technology, the landscape is vast and ever-evolving. Among the myriad options available, the JPG UV laser and RFH UV laser stand as notable contenders. Both these laser systems employ ultraviolet (UV) light to accomplish a wide range of applications, yet they possess unique characteristics that set them a...
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Unveiling Distinctions: UV Laser vs. Fiber Laser
Jul 13 , 2023
Unveiling Distinctions: UV Laser vs. Fiber Laser In the realm of laser technology, the UV laser and fiber laser have emerged as two prominent contenders, each presenting unique qualities and specialized applications. While both lasers exhibit remarkable capabilities, comprehending their disparities is crucial in discerning the best-suited laser for specific tasks. This article aims t...
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High Power UV Laser vs. CO2 Laser
Jul 13 , 2023
High Power UV Laser vs. CO2 Laser In the realm of laser technology, high power UV lasers and CO2 lasers have emerged as two prominent contenders, each with unique qualities and specialized applications. Understanding the disparities between these high-power lasers is crucial in discerning the most suitable option for specific tasks. This article aims to shed light on the distinctions...
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Why Laser Damage Testing is Critical for 355nm UV Laser Source Applications
Jul 14 , 2023
Why Laser Damage Testing is Critical for 355nm UV Laser Source Applications Laser Induced Damage Threshold (LIDT) defines the maximum quantity of laser radiation an optic can handle without damaging. It is one of the most important specifications to consider when integrating an optical component into a laser. To learn more about LIDT, please review the Understanding and Specifying LIDT of Laser Co...
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The difference between UV laser and fiber laser
Jul 24 , 2023
UV lasers and fiber lasers are both types of lasers used in various applications, but they differ in terms of their operating principles and the wavelengths of light they emit. UV lasers, also known as ultraviolet lasers, operate in the ultraviolet region of the electromagnetic spectrum. They emit light with a wavelength shorter than that of visible light, typically ranging from 10 to...
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What is the difference between CO2 lasers and UV lasers
Jul 24 , 2023
CO2 lasers and 355nm UV lasers are both widely used in various industries for different applications. Let's dive into the differences between these two types of lasers. Firstly, let's talk about CO2 lasers. These lasers operate in the mid-infrared range, typically emitting light at a wavelength of around 10.6 micrometers. They are called CO2 lasers because they use carbon dioxide gas...
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355nm UV laser cold processing of silicon wafer microvias and blind holes
Jul 24 , 2023
When it comes to 355nm UV laser cold processing of silicon wafer microvias and blind holes, there are several important factors to consider. Firstly, the 355nm UV laser is a type of ultraviolet laser that operates at a wavelength of 355 nanometers. This wavelength is particularly well-suited for processing silicon wafers due to its high absorption by silicon material. T...
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355nm UV Laser Engraving, Etching and Marking of plastics
Jul 26 , 2023
355nm UV laser and its applications in engraving, etching, and marking plastics. UV lasers with a wavelength of 355nm have gained significant popularity in various industries due to their ability to provide precise and high-quality results in plastic engraving, etching, and marking processes. These lasers emit ultraviolet light at a wavelength of 355nm, which falls within the UV-A sp...
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