A gaslaser is a laser in which an electric current is discharged through a gas to produce coherent light. The gas laser was the first continuous-light laser and the first laser to operate on the principle of converting electrical energy to a laser light output. The first gas laser, the Helium–neon laser, was co-invented by Iranian-American physicist Ali Javan and American physicist William R. Bennett, Jr. in 1960. It produced a coherent light beam in the infrared region of the spectrum at 1.15 micrometres.
Types of gas laser
Gas lasers using many gases have been built and used for many purposes. Carbon dioxide lasers, or CO2 lasers can emit hundreds of kilowatts at 9.6 µmand 10.6 µm, and are often used in industry for cutting and welding. The efficiency of a CO2 laser is over 10%. Carbon monoxide or "CO" lasers have the potential for very large outputs, but the use of this type of laser is limited by the toxicity of carbon monoxide gas. Human operators must be protected from this deadly gas. Furthermore, it is extremely corrosive to many materials including seals, gaskets, etc. Helium–neon lasers can be made to oscillate at over 160 different wavelengths by adjusting the cavity Q to peak at the desired wavelength. This can be done by adjusting the spectral response of the mirrors or by using a dispersive element in the cavity. Units operating at 633 nm are very common in schools and laboratories because of their low cost and near perfect beam qualities. Nitrogen lasers operate in the ultraviolet range, typically 337.1 nm, using molecular nitrogen as its gain medium, pumped by an electrical discharge. TEA lasers are energized by a high voltage electrical discharge in a gas mixture generally at or above atmospheric pressure. The acronym "TEA" stands for Transversely Excited Atmospheric.
Chemical lasers
s are powered by a chemical reaction, and can achieve high powers in continuous operation. For example, in the hydrogen fluoride laser and the deuterium fluoride laser the reaction is the combination of hydrogen or deuterium gas with combustion products of ethylene in nitrogen trifluoride. They were invented by George C. Pimentel. Chemical lasers are powered by a chemical reaction permitting a large amount of energy to be released quickly. Such very high power lasers are especially of interest to the military. Further, continuous wave chemical lasers at very high power levels, fed by streams of gasses, have been developed and have some industrial applications.
Excimer lasers
s are powered by a chemical reaction involving an excited dimer, or excimer, which is a short-lived dimeric or heterodimeric molecule formed from two species, at least one of which is in an excited electronic state. They typically produce ultraviolet light, and are used in semiconductor photolithography and in LASIK eye surgery. Commonly used excimer molecules include F2, and :Category:Noble gas compounds|noble gas compounds.
Ion lasers
lasers emit light in the range 351–528.7 nm. Depending on the optics and the laser tube a different number of lines is usable but the most commonly used lines are 458 nm, 488 nm and 514.5 nm.
Metal-vapor lasers
Metal-vapor lasers are gas lasers that typically generate ultraviolet wavelengths. Helium-silver 224 nm neon-copper 248 nm and helium-cadmium 325 nm are three examples. These lasers have particularly narrow oscillation linewidths of less than 3 GHz, making them candidates for use in fluorescence suppressed Raman spectroscopy. The Copper vapor laser, with two spectral lines of green and yellow, is the most powerful laser with the highest efficiency in the visible spectrum.