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Tunable diode laser absorption spectroscopy (TDLAS, sometimes referred to as TDLS, TLS or TLAS [1]) is a technique for measuring the concentration of certain species such as methane, water vapor and many more, in a gaseous mixture using tunable diode lasers and laser absorption spectrometry.
Among the types of tunable lasers are excimer lasers, gas lasers (such as CO 2 and He-Ne lasers), dye lasers (liquid and solid state), transition-metal solid-state lasers, semiconductor crystal and diode lasers, and free-electron lasers. [1] Tunable lasers find applications in spectroscopy, [2] photochemistry, atomic vapor laser isotope ...
Laser absorption spectrometry (LAS) refers to techniques that use lasers to assess the concentration or amount of a species in gas phase by absorption spectrometry (AS). Optical spectroscopic techniques in general, and laser-based techniques in particular, have a great potential for detection and monitoring of constituents in gas phase .
Part of a Ti:sapphire oscillator. The Ti:sapphire crystal is the bright red light source on the left. The green light is from the pump diode. Titanium-sapphire lasers (also known as Ti:sapphire lasers, Ti:Al 2 O 3 lasers or Ti:sapphs) are tunable lasers which emit red and near-infrared light in the range from 650 to 1100 nanometers.
Neodymium-doped yttrium orthovanadate (Nd:YVO 4) laser 1.064 μm laser diode Mostly used for continuous pumping of mode-locked Ti:sapphire or dye lasers, in combination with frequency doubling. Also used pulsed for marking and micromachining. A frequency doubled nd:YVO 4 laser is also the normal way of making a green laser pointer.
Earlier in 2000, another tunable laser company CoreTek had been sold to Nortel Corporation for approximately $1.4B. [ 8 ] [ 9 ] Unlike other tunable lasers that have a single cavity that is adjusted to change the wavelength, Santur used an array of 12 or 14 lasers, each at a different wavelength, all fabricated on a single chip at about a ten ...
In tunable laser resonators intracavity beam expansion usually illuminates the whole width of a diffraction grating. [2] Thus beam expansion reduces the beam divergence and enables the emission of very narrow linewidths [ 3 ] which is a desired feature for many analytical applications including laser spectroscopy.
The difference is the choice of the laser wavelength, which must be selected to match the energy of an electronic transition in the sample. A tunable laser is thus often used for resonance Raman spectroscopy, since a single laser can be used to generate many possible excitation wavelengths to match different samples. [8]
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