The joint high power solid state laser jhpssl program is nearing completion of its third phase. A laser beams radiance or brightness is its optical power divided by the. Solidstate laser article about solidstate laser by the. Efficiency of solid state laser is very low as compared to co2 lasers. They are pumped optically by either diode lasers or arc lamps flash lamps.
Download complete pdf book, the epub book or the kindle book. From better beam quality and stability, to remote alignment and lower maintenance needs, raea serves as a repeatable and reliable source for any of your high harmonic generation needs. In contrast, the output of a laser as shown in figure 11 has a very small divergence and can maintain high beam intensities over long ranges. Lasing medium solid state, gas, liquiddye, semiconductordiode, or free electron lasersfels pump source excitation via an electrical source, lamps, lasers, etc. The authors monograph solid state lasers has become the mostused reference book in this area. Types of lasers solid state laser, gas laser, liquid. A laser that has been oscillated by exciting a yag crystal doped with an nd ion using a laser diode or lamp. Mode locking of solid state lasers and fiber lasers has wide applications, as largeenergy ultrashort. Semiconductor based lasers are also in the solid state, but are generally considered as a separate class from solid state lasers see laser diode. So to get a beam which is equal divergence in both axis, the end faces of a bar composed of 5 laser diodes, can be imaged by means of 4 acylindrical cylinder lenses onto an image plane with 5 spots each with a size of 5 mm x 1 mm. Low divergence allows paraxial optics, which is cheaper, and which. There are also monolithic solid state lasers where the beam path is entirely inside the crystal.
A pump source excites the lasing medium, resulting in an. Mar 31, 2017 we give a short survey of solid state lasers with respect to host materials and impurities. Volume 29, number 2 optics communications may 1979 beam divergence and refractive power of directly coated solid state lasers r. Solid state lasing media are typically optically pumped, using either a flashlamp or arc lamp, or by laser diodes. Low brightness optical pumps can be optically integrated and laser energy delivered in a high peak power and high brightness laser beam. Esi offers a solid state laser portfolio ideal for many applications including material processing, scientific research, and lcd panel repair. This is the typical beam divergence for a high quality 1mm laser chip. They use matrices that cannot conduct current so cannot be pumped electrically. Stateoftheart in high brightness lasermaterial processing. The table below shows a comparison of typical beam qualities, for different commercially available solid state laser technologies at 1kw of power. Emphasis is placed on engineering and practical considerations. Great disadvantage of solid state lasers is the divergence, which is not constant and ranges 1 milli radian to 20 milli radian. M2 is defined as the ratio of actual beam divergence.
Tunable laser optics offers a transparent and comprehensive treatment of the physics of tunable laser optics based on a detailed description of first principles. Thus, relatively low power lasers are able to project more energy at a single wavelength within a narrow beam than can be obtained from much more powerful conventional light sources. Solid state lasers provide high reliability and compact size. Nonlinearity, including the nonlinear conversion, up frequency conversion and chirped pulse oscillators are discussed. May 12, 2003 solid state lasers have seen a fast and steady development and are the ubiquitous tool both for research and industrial applications. Laser quantum manufactures a wide range of diodepumped solid state lasers with wavelengths and powers from 473 to 1064 nm, 25 mw to 16 w. The output power for the cw solid state laser varies from a low of 0. Solidstate lasers um personal world wide web server. Laser fundamentals federation of american scientists. I am somewhat confused about the connection between divergence and solid angle for a beam. The beam divergence of a laser beam is a measure for how fast the beam expands far from the beam waist, i. Laser midinfrared systems, laser induced breakdown spectroscope and the clinical applications of surgical solid state lasers are also explored.
The beam divergence for the cw solid state laser can be as low as 1 milli radian for tem0,0 mode lasers are as high as 20 milli radians fro multimode lasers. The output of a q switched solidstate laser is often grossly as3mimetric. Rp photonics encyclopedia solidstate lasers, diode. Esi also provides individual solid state lasers without the micromachining kit.
An analysis of the lateral shearing interferometer is given for laser beams. However, most of our attention will be devoted to the common rod shape for lamp pumped solid state lasers and microchips for diode pumped solid state lasers. An abbreviation of yttrium vanadate yvo 4, a type of medium used for solid state lasers. Diode pumped planar waveguidethin slab solidstate lasers. Given the laser beam waist and divergence, its easy to determine the distance needed between the focusing lens and the laser to expand the beam to the required diameter. To calculate the beam divergence and spot size of the given laser beam.
Brightness or radiance of laser beams spie digital library. This capability of solid state lasers is a prime reason for their utility. For a gaussian laser beam, the required beam diameter d incident upon focusing lens of focal length f to produce a focused spot of diameter w is d 4. Diodepumped solid state lasers tend to be much more efficient and have become much more common as the cost of highpower semiconductor lasers has decreased mode locking. The active medium of a disk laser has the form of a disk rather than the form of a rod. Predicting laser beam characteristics wiley online library. Energy storage permits solid state lasers to serve as optical integrators. Laser beam divergence and solid angle thread starter naz93.
I have some notes from a previous lecture series i attended on laser physics, where i wrote down. It is often used as an industrial laser and supports marking on metals and plastics. Solid state lasers are replacing dye, ion and hene type lasers in certain markets. This parameter takes the divergence of a laser beam into account. In addition, the presence of phase distortion in the beam may be ascertained. Laser radiation has a narrow divergence 1mrad, and so a small solid angle 106. A solid state laser is a laser that uses a gain medium that is a solid, rather than a liquid as in dye lasers or a gas as in gas lasers. Weber universit kaiserslautern, postfach 3049, 6750 kaiserslautern, frg received 26 february 1979 a relation between the far field divergence angle of a laser output beam and the elements of the laser resonator matrix is derived. The lumentum cdps532m is a continuous wave 10 to 50 mw 532 nm diodepumped solid state laser in a very compact package. Surelock 633 nm wavelength stabilized laser diode min typ max unit threshold current ith 64 80 ma operating current iop 160 210 ma operating voltage vop 2. Glass the heart of any laser is the actual lasing medium which in the case of a solid state laser, is, well, a solid.
Duarte, cavity and resonator architectures for highperformance organic laser oscillators, in organic lasers and organic photonics, institute of physics, london, 2018 chapter 5. Beam divergences are generally smaller for diode pumped lasers as are the beam diameters, the latter brought about by the use of smaller diameter rods. Authored by a leading expert in the field, the book covers the optics and optical principles needed to build lasers, the optics instrumentation necessary to characterize laser emission. This includes different solid state lasers, gas lasers and dye lasers. Such a beam has the lowest beam divergence and pro duces the. Written from an industrial perspective, solid state laser engineering discusses in detail the characteristics, design, construction, and performance of solid state lasers. This large size is needed for low divergence beams. Laser beam divergence and solid angle physics forums. Osa laser beam divergence utilizing a lateral shearing. Beam divergence and refractive power of directly coated solid state. Appropriate measures and consistent standard for high. Ieee photonics journal highperformance red lasers with low beam divergence vol. Stimulated emission of light, the basic physical mechanism of laser sources, was first theoretically described by.
Some new rareearthdoped lasers, including double borate and halide crystals, and feedback in quantum dot semiconductor. A disk laser pumped with a semiconductor laser has a high beam quality. Like all electromagnetic beams, lasers are subject to divergence, which is measured in milliradians mrad or. The gain medium of a solid state laser consists of a glass or crystalline host material. The results enable a simple determination of the local radius of curvature of the wavefront. A solid state laser is a laser that uses a gain medium that is a solid, rather than a liquid as used in dye lasers or the gas thats in a gas laser. A dye laser is made up of an organic dye mixed with a solvent. May 30, 2017 a laser beam diverges because of two phenonena.
Moreover, a solidstate laser generally includes thermally induced selffocusing effects within. High efficiency mode matched solid state laser with. These lasers generate laser light from the excited energy states of organic dyes dissolved in liquid solvents. Beam divergence and refractive power of directly coated solid. Optomechanical devices, systems, and data storage optics, edited by gerald f. The book on laser physics in questionanswer format is presented. Lasers 101 laser selection guide solid state lasers. A low beam divergence can be important for applications such as pointing or freespace optical communications. Northrops unique scalable architecture coherently combines modular 15kw lasers to produce power levels of 100kw and beyond with excellent beam quality and. Laser farfield beamprofile measurements by the focal. Finally, we describe line broadening processes occurring in solid state laser media. Pdf highperformance red lasers with low beam divergence. The laser was the first device capable of amplifying light waves themselves.
Solid state laser physics, 3b scientific, red laser diode, 650 nm, objective for beam divergence, infrared detector card, laser diode driver and temperature controller cw and pulsed, diode laser mw, alignment laser diode 633 nm, 1 mw, nd. In electromagnetics, especially in optics, beam divergence is an angular measure of the. A relation between the far field divergence angle of a laser output beam and the elements of the laser resonator matrix is derived. Solidstate laser engineering 5th edition walter koechner. A dye laser is a laser that uses an organic dye liquid solution as the laser medium. Other solid state lasers can compensate for the disadvantages of diode lasers. It is a mechanism for emitting electromagnetic radiation via the process of stimulated emission. There is some arbitrariness in what measures we use for beam divergence since gaussian beams have theoretically infinite breadth. Nov 15, 1988 a solid state laser 10, as shown in fig. Solidstate laser engineering is written from an industrial perspective and discusses in detail the characteristics, design, construction and. The term laser is the acronym for light amplification by stimulated emission of radiation. There are many host materials in which laser excitation has been achieved, but relatively few types are in widespread use. This book deals with theoretical and experimental aspects of solid state lasers, including optimum waveguide design of end pumped and diode pumped lasers.
The aim is to present the topics in the simplest form for easy understanding of the student at ms level in physics. How solid state laser is made material, making, history. What is realistically the least possible beam divergence of a. Wavefront error is caused by imperfections in the lenses and mirrors, in addition to. The long upper state lifetimes makes solid state lasers very suitable for q switching.
Solid state lasers which offer multiple desirable qualities, including enhanced reliability, robustness, efficiency and wavelength diversity, are absolutely indispensable for many applications. Joint high power solid state laser program advancements at. Laser spectroscopy and its applications, edited by leon j. That seems to imply that the divergence is sufficient information to calculate the solid angle of the beam. Surface contaminant control technologies to improve laser damage resistance of optics. As a rule of thumb, bulk lasers and amplifiers are preferable for devices operating with high peak power, whereas lowthreshold and high gain operation is more easily achieved with waveguide lasers and amplifiers.
660 35 879 949 1201 821 358 1339 938 1560 1356 1449 626 219 952 373 292 609 45 1518 1193 1158 1206 1375 897 489 703 1311 1037 628 1314 1347 158 700 408 678 906 95 644 380 223 572 843