Industrial lasers are built to be more rugged and easier to maintain.
James T. Luxon has written: 'Industrial lasers and their applications' 'Industrial lasers andtheir applications' -- subject(s): Lasers
cuttingweldinginspectionetc.
well some lasers can burn and some cannot. and some that cannot are more powerful than others
Being primarily scientific or industrial instruments, lasers are not typically manufacturedwater-tight; when placed in water, their electronics usually fail.However, the beam of light emitted by a laser travels quite well in water.
The main difference is the medium of the laser.
Cold lasers are safer and deal less pain than hot lasers. Cold lasers are usually used for repairing skin damage and treating pain and inflammation. Hot lasers are simply used for burning things.
Free-electron lasers were invented at Stanford University by John Madey. While these lasers share the same optical properties as conventional lasers, the main difference between the two is the principal they use to form the beam.
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.
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.
Alexander Heisterkamp has written: 'Frontiers in ultrafast optics' -- subject(s): Ultrashort Laser pulses, Congresses, Lasers in medicine, Lasers, Industrial applications, Lasers in biology
Burning lasers create more heat than normal lasers. Strictly speaking, Laser include burning laser. Burning lasers are powerful laser pointers like 300mW or above, they can burn objects like paper and tapes.
Ultraviolent lasers can be used for scientific and industrial use, as well as OEM applications. Other uses include cosmetic dentistry and executing experiments in atomic and molecular spectroscopy, as well as chemical dynamics.