Laser: An instrument that generates a beam of light of a single wavelength or color that is both highly collimated and coherent; an acronym that stands for light amplification by the stimulated emission of radiationLaser medium: A material or substance of solid, liquid, or gaseous nature that is capable of producing laser light due to stimulated electron transition from an unstable high-energy orbit to a lower one with release of collimated, coherent, monochromatic lightPump: The electrical, optical, radiofrequency or chemical excitation that provides energy to the laser mediumOptically pumped laser: A laser where electrons are excited by the absorption of light energy from an external sourceElectromagnetic radiation: A complex system of radiant energy composed of waves and energy bundles that is organized according to the length of the propagating wavePhoton: A quantum of electromagnetic radiation or lightMonochromatic: Light energy emitted from a laser optical cavity of only a single wavelengthCoherence: All waves are in phase with one another in both time and spaceCollimation: All waves are parallel to one another with little divergence or convergencePopulation inversion: The state present within the laser optical cavity (resonator) where more atoms exist in unstable high-energy levels than their normal resting energy levelsPower: The rate at which energy is emitted from a laserPower density (irradiance): The quotient of incident laser power on a unit surface area, expressed as watts/cm2Energy fluence: The energy contained within light is expressed in joules (J). The energy fluence determines the amount of laser energy delivered in a single pulse and is expressed in joules/cm2Pulse: The brief span of time for which, the focused and scanned laser beam interacts with a given point on the skin (usually in milliseconds, nanoseconds)Q-Switch: An optical device (Pockels cell) that controls the storage or release of laser energy from a laser optical cavity. Q-switching is a means of creating very short pulses (5-100 ns) with extremely high peak powers. Q stands for quality.Quality factor (Q factor) is defined as the ratio of the energy stored in the optical resonant cavity to the energy loss per cycle. The higher the quality factor, the lower the losses. In the technique of Q-switching, energy is stored in the amplifying medium by optical pumping while the cavity Q is lowered to prevent the onset of laser emission. When a high cavity Q is restored, the stored energy is suddenly released in the form of a very short pulse of light. Q-switched lasers are often used in applications which demand high laser intensities in nanosecond pulsesReflectance: The ratio of incident power to absorbed power by a given mediumScattering: A change in the direction of propagation of a photon. This results from imprecise absorption of laser energy by a biologic system resulting in a diffuse effect on tissueAbsorption: The transformation of radiant energy to another form of energy (usually heat) by interacting with matterChromophore: Endogenous light-absorbing chemicals, which absorb light of specific wavelengthTransmission: The passage of laser energy through a biologic tissue without producing any effectThermomodulation: The ability of low-energy light to upregulate certain cellular biologic activities without producing an injuryPhotoacoustic effect: The ability of Q-switched laser light to generate a rapidly moving wave within living tissue that destroys melanin pigment and tattoo ink particlesSelective photothermolysis: A concept used to localize thermal injury to a specific target based on its absorption characteristics, the wavelength of light used, the duration of the pulse, and the amount of energy deliveredExtended theory of selective theromolysis: This distinguishes between an ‘absorber’ chromophore (e.g. melanin in hair shaft) in which heat is generated and a distant target (e.g. stem cells of isthmus), to which heat is transmitted and which is damaged as a result.Fractional photothermolysis: Here, pinpoint laser pulses create thousands of microthermal zones (MTZ), which are microscopic epidermal and dermal thermal wounds interspersed within untreated tissue. The small wound size and short migratory distance for keratinocytes facilitate rapid epidermal repair resulting in effective skin rejuvenation and quick recoveryThermal relaxation time: It is the time taken for the target to dissipate about 63% of the incident thermal energy. It is related to size of target chromophore, e.g., few nanoseconds (tattoo particles) to hundred milliseconds (leg venules)Thermal damage time: It is the time required, for the entire target, including the primary chromophore (e.g. melanin) and the surrounding target (e.g. hair follicle), to cool by about 63%. It includes cooling of the primary chromophore as well as the entire target.Extinction length: The thickness of material necessary to absorb 98% of incident energyNd:YAG:Neodymium: Yttrium Aluminum Garnet, (YAG) a widely used solid-state crystal composed of yttrium and aluminum oxides and a small amount of the rare earth neodymium.