Laser Systems

A laser is an electronic-optical device that produces coherent radiation. The term \"laser\" is an acronym for Light Amplification by Stimulated Emission of Radiation. more...

Home
Bath & Body
Dietary Supplements,...
Hair Care
Hair Removal
Health Care
Makeup
Massage
Medical, Special Needs
Nail
Natural Therapies
Oral Care
Skin Care
Acne, Blemish Control
Anti-Aging Products
Ahava
Aloette
Arbonne
Nutrimin C
Other
Sets
Avon
Clinical Line
Other Product Lines
Retroactive Line
Ultimate Line
Eye Treatments
Face Creams
Facial Peels
Laser Systems
Line, Wrinkle Correctors
Other
Repair Creams, Lotions
Serums
BeautiControl
Bliss
Cellex-C
Chanel
Christian Dior
Clarins
Clinique
Eye Treatments
Face Creams
Firming Creams, Lotions
Other Products
DDF
Elizabeth Arden
Elizabeth Grant
Erno Laszlo
Estée Lauder
Future Perfect
Other
Perfectionist
Resilience
Eye Treatments
Face Creams
Night Repair
Other Products
Serums
Skin Refinisher
Freeze 24/7
Gatineau
Guerlain
Isomers
Jafra
Kiehl's
Kinerase
L'Oreal
La Prairie
Lancôme
Eye Treatments
Face Creams
Other Products
Wrinkle Treatments
Mary Kay
Day Solutions
Eye Treatments
Facial Cleansers
Facial Moisturizers
Night Solutions
Other Products
Sets, Kits
MD Formulations
Murad
N.V. Perricone, M.D.
Natura Bisse
Neutrogena
Obagi
Oil of Olay
Other
Regenerist
Total Effects
Origins
Other Brands
Philosophy
Principal Secret
ReVive
Serious Skin Care
Eye Cream
Other
Serums
Shiseido
Signature Club A
Skinceuticals
Strivectin
Wei East
Z. Bigatti
Blotting Papers
Cleansers
Exfoliators, Scrubs
Eye Masks
Lightening Cream
Makeup Remover
Masks, Peels
Men's Skin Care
Microdermabrasion
Moisturizers
Night Cream
Other Items
Samples, Trial Size
Sets, Kits
Sun Care
Toners, Astringents
Vision Care

A typical laser emits light in a narrow, low-divergence beam and with a well-defined wavelength (i.e., monochromatic, corresponding to a particular colour if the laser is operating in the visible spectrum). This is in contrast to a light source such as the incandescent light bulb, which emits into a large solid angle and over a wide spectrum of wavelength.

A laser consists of a gain medium inside an optical cavity, with a means to supply energy to the gain medium. The gain medium is a material (gas, liquid, solid or free electrons) with appropriate optical properties. In its simplest form, a cavity consists of two mirrors arranged such that light bounces back and forth, each time passing through the gain medium. Typically, one of the two mirrors, the output coupler, is partially transparent. The output laser beam is emitted through this mirror.

Light of a specific wavelength that passes through the gain medium is amplified (increases in power); the surrounding mirrors ensure that most of the light makes many passes through the gain medium. Part of the light that is between the mirrors (i.e., is in the cavity) passes through the partially transparent mirror and appears as a beam of light. The process of supplying the energy required for the amplification is called pumping and the energy is typically supplied as an electrical current or as light at a different wavelength. In the latter case, the light source can be a flash lamp or another laser. Most practical lasers contain additional elements that affect properties such as the wavelength of the emitted light and the shape of the beam.

The first working laser was demonstrated in May 1960 by Theodore Maiman at Hughes Research Laboratories. Recently, lasers have become a multi-billion dollar industry. The most widespread use of lasers is in optical storage devices such as compact disc and DVD players, in which the laser (a few millimeters in size) scans the surface of the disc. Other common applications of lasers are bar code readers and laser pointers. In industry, lasers are used for cutting steel and other metals and for inscribing patterns (such as the letters on computer keyboards). Lasers are also commonly used in various fields in science, especially spectroscopy, typically because of their well-defined wavelength or short pulse duration in the case of pulsed lasers. Lasers are also used for military and medical applications.

Physics

To understand the fundamentals of how lasers work and what makes their emissions so special, requires a knowledge of the interaction of electromagnetic radiation and matter (see the \"introduction to quantum mechanics\" article).

See also: Laser science and Laser construction

A laser is composed of an active laser medium, or gain medium, and a resonant optical cavity. The gain medium transfers external energy into the laser beam. It is a material of controlled purity, size, concentration, and shape, which amplifies the beam by the process of stimulated emission. The gain medium is energized, or pumped, by an external energy source. Examples of pump sources include electricity and light, for example from a flash lamp or from another laser. The pump energy is absorbed by the laser medium, placing some of its particles into high-energy (\"excited\") quantum states. Particles can interact with light both by absorbing photons or by emitting photons. Emission can be spontaneous or stimulated. In the latter case, the photon is emitted in the same direction as the light that is passing by. When the number of particles in one excited state exceeds the number of particles in some lower-energy state, population inversion is achieved and the amount of stimulated emission due to light that passes through is larger than the amount of absorption. Hence, the light is amplified. Strictly speaking, these are the essential ingredients of a laser. However, usually the term laser is used for devices where the light that is amplified is produced as spontaneous emission from the same gain medium as where the amplification takes place. Devices where light from an external source is amplified are normally called optical amplifiers.

Read more at Wikipedia.org