Scientists have demonstrated for the first time the fibre-based amplification of mid-infrared diode lasers in the 2.78 µm wavelength range.
This article will provide an in-depth, educational examination of the science behind tattoo removal lasers, exploring their historical background, fundamental concepts, current research, applications, implications, and future prospects.
Researchers have made a groundbreaking discovery in laser technology by designing and preliminarily validating a fiber laser that directly emits yellow light.
Utilizing an optoacoustic technique, researchers successfully determined the maximum temperature at the end of an irradiation with a single microsecond laser pulse.
The science and applications behind excimer lasers, exploring what makes them special and how they are utilized in various fields.
In this article, we will explore the technology behind diode pumped fiber lasers, their various applications, recent advances, challenges, and future directions.
Tunable Orange-Red Diamond Laser transforms Biomedicine, Astronomy and Spectroscopy with its unique capabilities.
In this article, we will explore the principles behind pulsed dye lasers, their advantages and limitations, as well as their diverse applications in various fields.
Two-photon excitation, a unique form of light-matter interaction in which two photons are absorbed simultaneously by a material, is one such interaction that has a wide range of applications.
Alexandrite lasers have been used in the medical field for a wide range of applications, from dermatology to ophthalmology, and even dental procedures.
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