PP_SSL_Modeling - LAS
... optical elements can be described by the use of ABCD matrices. In many cases the optical elements in a resonator, such as spherical mirrors and dielectric interfaces, can be approximated parabolically. The ABCD Matrices for mirrors, lenses, and dielectric interfaces are well known. I am showing some ...
... optical elements can be described by the use of ABCD matrices. In many cases the optical elements in a resonator, such as spherical mirrors and dielectric interfaces, can be approximated parabolically. The ABCD Matrices for mirrors, lenses, and dielectric interfaces are well known. I am showing some ...
Geometrical Optics Image Formation Images formed by plane
... Note: every ray which leaves the tip of the object will go through the tip of the image! All other rays leaving from other locations on the object will go through that corresponding location on the image!!! Thus, the image looks like the object to the eye. ...
... Note: every ray which leaves the tip of the object will go through the tip of the image! All other rays leaving from other locations on the object will go through that corresponding location on the image!!! Thus, the image looks like the object to the eye. ...
Demonstration of a linear optical true
... separated by a distance equal to their common radius of curvature, R ⫽ 2f, where f is the focal length of the mirror. The center共s兲 of curvature 共CC兲 of mirrors B and C are a distance ␦ above and below the axis, respectively, and the CC of mirror A is halfway between mirrors B and C. With the spheri ...
... separated by a distance equal to their common radius of curvature, R ⫽ 2f, where f is the focal length of the mirror. The center共s兲 of curvature 共CC兲 of mirrors B and C are a distance ␦ above and below the axis, respectively, and the CC of mirror A is halfway between mirrors B and C. With the spheri ...
interferometer_2014
... the number of precision mechanical mounts to a minimum; keep the spots small on the beam splitter and mirrors and then blow the beam up for viewing at the end. We use a laser pointer because you get a surprisingly good and reliable light source for under $25. By keeping the distances between the end ...
... the number of precision mechanical mounts to a minimum; keep the spots small on the beam splitter and mirrors and then blow the beam up for viewing at the end. We use a laser pointer because you get a surprisingly good and reliable light source for under $25. By keeping the distances between the end ...
Mirror
A mirror is an object that reflects light in such a way that, for incident light in some range of wavelengths, the reflected light preserves many or most of the detailed physical characteristics of the original light. This is different from other light-reflecting objects that do not preserve much of the original wave signal other than color and diffuse reflected light.The most familiar type of mirror is the plane mirror, which has a flat screen surface. Curved mirrors are also used, to produce magnified or diminished images or focus light or simply distort the reflected image.Mirrors are commonly used for personal grooming or admiring oneself (in which case the archaic term looking-glass is sometimes still used), decoration, and architecture. Mirrors are also used in scientific apparatus such as telescopes and lasers, cameras, and industrial machinery. Most mirrors are designed for visible light; however, mirrors designed for other wavelengths of electromagnetic radiation are also used.