PDF-EVANESCENT LIGHT-WAVE ATOM MIRRORS, RESONATORS, WAVEGUIDES, AND TRAP

ST U S Army Missile Command Redstone Arsenal Alabama JULIO GEABANACLOCHE Physi Detuned Concave Atom Traps A ParticleInABox With Gravity B Pyramidal Gravitational Trap C Conical Gravita. Wave-Particle Duality. JJ Thomson won the Nobel prize for describing the electron as a particle.. His son, George Thomson won the Nobel prize for describing the wave-like nature of the electron.. The electron is a particle!. December 4. th. . REVIEW. What do you remember. ?. December 4. th. 2015 page 111. DO: I . will be able to explain the nature of waves, their behaviors and characteristics as they are manipulated by mirrors and lenses. ELL212: . Uday Khankhoje. EE, IIT Delhi. 1. Waveguides (recap). 2. Waveguides (recap) [1]. Maxwell:. Expand fields into components: .  . 3. Waveguides (recap. ). [1]. Transverse components in terms of . ELL212: . Uday Khankhoje. EE, IIT Delhi. 1. Waveguides (recap). 2. Waveguides (recap) [1]. Maxwell:. Expand fields into components: .  . 3. Waveguides (recap. ). [1]. Transverse components in terms of . Essential Questions:. What Are the Kinds of Reflections?. What Types of Images Do Mirrors Produce?. What Are the Kinds of Reflection?. Light obeys the law of reflection.. The angle of the reflection equals the angle of incidence.. Sound. Sound waves are compressional waves.. Two regions: compressions and rarefactions. Sound travels faster in liquids and solids than in gases.. Why? The molecules in liquids and solids are closer together.. “Modal interference in optical nanofibers for sub-Angstrom radius sensitivity,” . F.K. . Fatemi. , J.E. Hoffman, P. Solano, E.F. Fenton, G. . Beadie. , S.L Rolston, and L.A. Orozco, . Optica. , 4, 157-162 (2017). December 4. th. . REVIEW. What do you remember. ?. December 4. th. 2015 page 111. DO: I . will be able to explain the nature of waves, their behaviors and characteristics as they are manipulated by mirrors and lenses. Mirrors. Recall that your eyes gather light reflected off of objects . This allows you to see the objects. Light can reflect more than once. Light bouncing off of you can then bounce off of a mirror. 3. : Guided . Wave Optics. Prof. . Juejun (JJ) Hu. hujuejun@udel.edu. Modes. “. When asked, many well-trained scientists and engineers will say that they understand what a mode is, but will be unable to define the idea of modes and will also be unable to remember where they learned the idea!. It wasn’t until the early 19. th. century that light was theorized to behave as something other than a stream of particles.. Isaac Newton proposed the particle theory of light.. Newton’s theory was used to explain the reflection and refraction of light.. Tim Kovachy. Department of Physics and Astronomy and Center for Fundamental Physics, Northwestern University. NPS Colloquium. February 1, 2019 . Conceptual overview of atom interferometry. Motivation for gravitational wave detection in the “mid-band” frequency range of ~ 0.1 Hz to 10 Hz. Light. Science. . . Success Criteria. Aim. I can use a mirror to reflect light and explain how mirrors work. . I can explain why mirrors are good reflectors.. I can use mirrors to reflect light onto different objects.. Scientific Achievement. Native germanium is used to demonstrate the first high-quality micro-resonators in the long wavelength infrared (LWIR). . The LWIR region of the spectrum spans 8 to 14 . μ. m and enables high-performance sensing and imaging for detection, ranging, and monitoring. .