![]() The relativistic wave functions for the shutter problem may play an important role in the dynamical description of a relativistic scattering process. This is called diffraction, and is illustrated in the adjacent image. The connection of transient phenomena with the time-energy uncertainty relation, and the interpretation of the transient current in a scattering process, are briefly discussed. Because light is a wave, it has the capability to bend around corners. Only for the Schrödinger time-dependent equation do the transient wave functions resemble the solutions that appear in Sommerfeld's theory of diffraction. Diffraction is normally taken to refer to various phenomena which occur when a wave encounters an obstacle. The shutter problem is discussed for particles whose wave functions satisfy the Schrödinger equation, the ordinary wave equation, and the Klein-Gordon equation. This is the reason for calling the transient phenomena by the name of diffraction in time. A radio wave that meets an obstacle has a natural tendency. For a nonrelativistic beam of particles, the transient current has a close mathematical resemblance with the intensity of light in the Fresnel diffraction by a straight edge. Diffraction refers to various phenomena which occur when a wave encounters an obstacle or a slit. Single-slit diffraction is useful when it is known ahead of time that the light (or another type of wave) in the experiment is monochromatic and coherent. Diffraction refers to various phenomena that occur when a wave encounters an obstacle or opening. The term diffraction can be defined as any deviation of rays from rectilinear paths that cannot be interpreted as either a reflection or a refraction. If the amplitude of the wave is larger than the size of the opening, then the wave will bend more to pass through the opening, and hence the wave will diffract more. ![]() The amount of diffraction depends upon the amplitude of the wave. ![]() To understand the physical significance of these terms, the transient effects that appear when a shutter is opened are discussed in this paper. The following is the list of wave properties of diffraction that we are going to see in the topic:. In a previous note a dynamical description of resonance scattering was given, and transient terms appeared in the wave function describing the process. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |