Almost any modern home has laser equipment these days. They are used to read and write optical discs, i.e., CDs, DVDs and Blu-ray discs.
James T. Luxon has written: 'Industrial lasers and their applications' 'Industrial lasers andtheir applications' -- subject(s): Lasers
cuttingweldinginspectionetc.
Alexander Heisterkamp has written: 'Frontiers in ultrafast optics' -- subject(s): Ultrashort Laser pulses, Congresses, Lasers in medicine, Lasers, Industrial applications, Lasers in biology
Art Elsea has written: 'The impact of lasers on semiconductor processing' -- subject(s): Industrial applications, Integrated circuits industry, Lasers
Industrial lasers are built to be more rugged and easier to maintain.
Some examples of liquid lasers are dye lasers, which use organic dyes dissolved in a solvent as the gain medium, and liquid crystal lasers, which use liquid crystal materials to create the gain necessary for laser emission. These liquid lasers have tunable emission wavelengths and can be used in various research and industrial applications.
White lasers are different from traditional lasers because they emit light across a broad spectrum of colors, while traditional lasers emit light of a single color. This allows white lasers to be used for a wider range of applications, such as in lighting, displays, and medical imaging, compared to traditional lasers which are typically used for precision cutting, welding, and communication.
Gems have various applications in abrasives due to their hardness, in lasers for their ability to amplify light, and in electronics for their use as semiconductors or insulators.
All tunable LASERs are LASERS, however not all LASERS are tunable. In a tunable laser the lasing medium, which is typically a gas, dye or crystal, can be altered to produce slightly different frequencies, thus allowing the laser to be 'tuned' or frequency changed where most LASERS produce a very narrow band of radiation frequencies.
You can find lasers in various devices such as laser pointers, CD/DVD players, barcode scanners, and medical equipment. Additionally, lasers are commonly used in industrial applications, defense systems, and scientific research.
DPSS Lasers are used for scientific as well as industrial uses, DPSS stands for diode pumped solid state lasers. They can be used for a variety of purposes such as bioanalysis, spectroscopy and in many more biological applications. They can also be used to produce light shows.
Ytterbium is used in various industries and applications, such as in lasers for medical and industrial purposes, in nuclear reactors for controlling reactions, in the production of certain alloys for aerospace and automotive industries, and in research for studying materials and processes at the atomic level.