Greg A. Smith - curriculum vitae
... Dissertation topic = "Continuous Optical Measurement of Cold Atomic Spins" June 2006 Optical Sciences Center, University of Arizona, Tucson, AZ M.S. - Optical Sciences degree December 2002 B.S. - Rochester Institute of Technology, Rochester, NY Graduated with Honors in Physics (with Optics concentra ...
... Dissertation topic = "Continuous Optical Measurement of Cold Atomic Spins" June 2006 Optical Sciences Center, University of Arizona, Tucson, AZ M.S. - Optical Sciences degree December 2002 B.S. - Rochester Institute of Technology, Rochester, NY Graduated with Honors in Physics (with Optics concentra ...
Syllabus
... 3. If you overtake the last person in a race, what position would you be in? It is not possible ...
... 3. If you overtake the last person in a race, what position would you be in? It is not possible ...
Chapter 3 Fiber Optics and Integrated Optics
... AXIAL which are sometimes refered to as RGRIN and AGRIN respectively. RGRINS are usually used where you want to add optical power to focus light. An RGRIN with flat surfaces can focus light just as a normal lens with curved surfaces does. Thin RGRIN lenses with flat surfaces are known as WOOD lenses ...
... AXIAL which are sometimes refered to as RGRIN and AGRIN respectively. RGRINS are usually used where you want to add optical power to focus light. An RGRIN with flat surfaces can focus light just as a normal lens with curved surfaces does. Thin RGRIN lenses with flat surfaces are known as WOOD lenses ...
Light - FT HELP
... this make shadow. Second, we can reflect it, it means change its path with mirror. And third way how controlling the light, we can bend it, it means change its direction by making it pass into another transparent material of different density, like glass or water. There are actually other ways to be ...
... this make shadow. Second, we can reflect it, it means change its path with mirror. And third way how controlling the light, we can bend it, it means change its direction by making it pass into another transparent material of different density, like glass or water. There are actually other ways to be ...
Following the path of light: recovering and
... To clarify what we mean by following the path of light, let us first discuss a simple experiment we use to introduce the problem of vision to students. Let us consider the object in Fig. 1(a), which is a small plastic box containing transparent gel deco beads and water. Refractive index of beads is v ...
... To clarify what we mean by following the path of light, let us first discuss a simple experiment we use to introduce the problem of vision to students. Let us consider the object in Fig. 1(a), which is a small plastic box containing transparent gel deco beads and water. Refractive index of beads is v ...
Physics 263 Experiment 6 Geometric Optics 1 Refraction
... 2. Move the lens to a position where an image of the object is formed on the screen. Measure the image distance and the object distance. 3. Repeat the above procedure for a least 3 additional, different object distances. Enter the data into a spreadsheet. Plot 1/do vs. 1/di . Use trend-line informat ...
... 2. Move the lens to a position where an image of the object is formed on the screen. Measure the image distance and the object distance. 3. Repeat the above procedure for a least 3 additional, different object distances. Enter the data into a spreadsheet. Plot 1/do vs. 1/di . Use trend-line informat ...
OPTICS
... 1. A real image can be projected on a screen when placed where the image is formed. a. Lenses in a slide projector or a camera produce real images C. Virtual Image-formed when the light rays from a common point pass through or are reflected by an optical system that causes them to diverge and appea ...
... 1. A real image can be projected on a screen when placed where the image is formed. a. Lenses in a slide projector or a camera produce real images C. Virtual Image-formed when the light rays from a common point pass through or are reflected by an optical system that causes them to diverge and appea ...
Lecture 31 - Purdue Physics
... It is effectively the central ray of the bundle emerging from a point on an object that can get through the aperture. Importance: aberrations in optical systems ...
... It is effectively the central ray of the bundle emerging from a point on an object that can get through the aperture. Importance: aberrations in optical systems ...
39 Steps
... changes in the apparent source position will alter the efficiency of the optics coupling the laser light into the single-mode optical fiber used in most instruments. The numerical aperture of the objective lens (Figure 1B) affects the fraction of the light emitted by the specimen that can be collect ...
... changes in the apparent source position will alter the efficiency of the optics coupling the laser light into the single-mode optical fiber used in most instruments. The numerical aperture of the objective lens (Figure 1B) affects the fraction of the light emitted by the specimen that can be collect ...
Chapter 23 Ray Optics
... • Applications include: – medical use of fiber optic cables for diagnosis and correction of medical problems – Telecommunications ...
... • Applications include: – medical use of fiber optic cables for diagnosis and correction of medical problems – Telecommunications ...
Sign convention
... Distances to the right are + Heights above the axis are + The radius of a surface is + if its center of curvature is to the right • Focal lengths of converging elements are + • Light traveling in a – direction (after a mirror) uses distances and indices that are negative ...
... Distances to the right are + Heights above the axis are + The radius of a surface is + if its center of curvature is to the right • Focal lengths of converging elements are + • Light traveling in a – direction (after a mirror) uses distances and indices that are negative ...
A tutorial for designing fundamental imaging systems
... We should decide magnification of designed system according to the resolution of the image. We should decide it at first. Magnification for fundamental optical system is shown in Figure.3.1. There are 2 lenses and object with height of ho. Object is placed at front focal plane of an objective lens, ...
... We should decide magnification of designed system according to the resolution of the image. We should decide it at first. Magnification for fundamental optical system is shown in Figure.3.1. There are 2 lenses and object with height of ho. Object is placed at front focal plane of an objective lens, ...
LEVEL –A QESTIONS-OPTICS 1. Draw a ray diagram to show the
... For the same angle of incidence, the angles of refraction in three different media A,B, and C are 15 , 20 and 30 respectively . In which medium will the velocity of light be minimum? Does critical angle depend on colour of light? What is the value of critical angle for a material of refractive in ...
... For the same angle of incidence, the angles of refraction in three different media A,B, and C are 15 , 20 and 30 respectively . In which medium will the velocity of light be minimum? Does critical angle depend on colour of light? What is the value of critical angle for a material of refractive in ...
Single Pixel Cameras wall panels
... Showcase presents new and ongoing research from the School of Physics and Astronomy at the University of Glasgow. Researchers from the Optics Group are developing experimental cameras that don’t sense light with millions of pixels, but instead require just one pixel. ...
... Showcase presents new and ongoing research from the School of Physics and Astronomy at the University of Glasgow. Researchers from the Optics Group are developing experimental cameras that don’t sense light with millions of pixels, but instead require just one pixel. ...
700 nm 400 nm Wavelength, λ Frequency, f 4x1014 Hz
... In Young’s double-slit experiment, light emerging from the two slits is used as two coherent sources. When the light is projected onto a screen, an interference pattern appears that consists of a series of alternating bright and dark fringes around a central maximum. Because the bright fringes indic ...
... In Young’s double-slit experiment, light emerging from the two slits is used as two coherent sources. When the light is projected onto a screen, an interference pattern appears that consists of a series of alternating bright and dark fringes around a central maximum. Because the bright fringes indic ...
ECEN 4616/5616 Optoelectronic Design
... For detecting planets around other stars, the angular requirements result in extremely long focal lengths (100’s of km), so another approach is to use a phase mask at the prime focal plane in order to null out the star image: ...
... For detecting planets around other stars, the angular requirements result in extremely long focal lengths (100’s of km), so another approach is to use a phase mask at the prime focal plane in order to null out the star image: ...
Image formation and optical transfer function in a course of
... We have also computed the image of a five-bar object. The dimensions of the bars are 0.52 nn and the period is 1.04 .tm. The frequency of this five-bar object in the units used in Eq.(2) is 0.702 for NAO.5 and &=O.365tm. Fig. 4 shows the images of the five-bar test given by a system without aberrat ...
... We have also computed the image of a five-bar object. The dimensions of the bars are 0.52 nn and the period is 1.04 .tm. The frequency of this five-bar object in the units used in Eq.(2) is 0.702 for NAO.5 and &=O.365tm. Fig. 4 shows the images of the five-bar test given by a system without aberrat ...