CHARACTERISTICS OF A LASER

CHAPTER 2 INTRODUCTION TO LASERS The word laser is an acronym for Light Amplification by Stimulated Emission of Radiation. The first lasers were used for surveying applications, as they gave an accurate measurement of distance. As the technology increased, laser systems were adapted for military applications. The initial application was for gunfire control. Today, lasers are used in the military for range finding, target designation, com- munications, target detection, and landing systems, and training aids. In the civilian community, lasers are used in the medical field and for welding, cutting, surveying, and communications. CHARACTERISTICS OF A LASER A simplified illustration of a typical solid-state laser is shown in figure 2-1. The elements of the laser are: . Lasing material (crystal, gas, etc.) . Pump source (flash lamp, electron collision, etc.) l Optical cavity . Laser radiation Lasers operate on the principle of stimulated emission. Electrons in the atoms of the lasing material reside in a steady-state. When energy is added to an atom, an unstable condition occurs when its electrons are excited to a higher energy level. The electrons will stay in this state for a short time and then decay back to their original energy state. This decay occurs in two ways: 1. 2. Spontaneous decay—the electrons simply fall to their ground state while emitting randomly directed photons; and Stimulated decay—the photons from spontaneous decaying electrons strike other excited electrons, which causes them to fall to their ground state. This transition through stimulated decay will release energy in the form of photons of light that travel in phase and in the same direction as the incident photon. If the direction is parallel to the optical axis, the emitted photons will travel back and forth in the optical cavity, through the lasing material, between the 100-percent reflecting mirror and the 99-percent reflecting mirror. The light energy is amplified each time the beam passes through the lasing material. When sufficient energy is built up in the beam, a burst of light will be transmitted through the 99-percent reflecting mirror. This action is called lasing. Figure 2-1.—Typical solid-state laser configuration. 2-1