anlage.umd.edu
Steven M. Anlage Research Page
http://anlage.umd.edu/AnlageCNT.htm
High Frequency Superconductivity, Microscopy, Nanophysics, and Chaos. We are interested in the high frequency properties and physics of nanostructured materials. Carbon nanotubes and graphene have interesting electrodynamic properties that are governed by quantum mechanics. In collaboration with Prof. Michael Fuhrer, we are examining the use of single carbon nanotubes as Schottky detectors of microwave and millimeter wave radiation. Papers can also be downloaded from the full publication list. 122 Hua Xu...
anlage.umd.edu
Steven M. Anlage Research Page
http://anlage.umd.edu/AnlageSCNIR.htm
High Frequency Superconductivity, Microscopy, Nanophysics, and Chaos. Materials with a negative index of refraction (NIR) were originally proposed in 1967 by V. G. Veselago, The Electrodynamics of Substances With Simultaneously Negative Values of e. Usp Fiz. Nauk 92. 517-526 (1967) [English translation: Sov. Phys. Usp. 10. Reversed Cerenkov Effect. The cone of light emission in an LHM will be backward relative to the direction of motion of the particle. Negative Refraction. At a boundary between two ...
anlage.umd.edu
Steven M. Anlage Research Page
http://anlage.umd.edu/AnlageLSM.htm
High Frequency Superconductivity, Microscopy, Nanophysics, and Chaos. Laser Scanning Microscopy (LSM) is a powerful tool for non-destructive testing of planar microelectronics chips containing superconducting, semiconducting and normal-metal elements. The micron-range resolution of the LSM matches the scale of point and extended defects, and high-temperature Superconducting (HTS) material grains. These grains are responsible for the spread of superconducting properties (critical temperature T. An NSF-fun...
international.uonbi.ac.ke
Collaborating Institutions | Center for International Programmes and Links (CIPL)
http://international.uonbi.ac.ke/node/70
Center for International Programmes and Links (CIPL). Requirement for Foreign Students. Vision, Mission and Core Values. Functions of the Centre. International Visitors to CIPL. Schoolarships and Students Welfare. Enquires and Customer Service. For more information please contact:. The Director, Centre for International Programmes and Links (CIPL),. Main Campus Gandhi Wing 2. Floor, Room 213(A-E). Telephone: 254-20-2214917/318262 Ext. 28113 or 28135 Cellphone No.254-712-718808. JAPAN ,HOKKAIDO UNIVERSITY.
en.wikipedia.org
Chaos theory - Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Chaos_theory
From Wikipedia, the free encyclopedia. For other uses, see Chaos Theory (disambiguation). A plot of the Lorenz attractor. A double rod pendulum. Animation showing chaotic behavior. Starting the pendulum from a slightly different initial condition would result in a completely different trajectory. The double rod pendulum is one of the simplest dynamical systems that has chaotic solutions. Is the field of study in mathematics. That studies the behavior of dynamical systems. This behavior can be studied thr...
weatherchaos.umd.edu
UMCP Chaos Weather Project - Links
http://www.weatherchaos.umd.edu/links.php
Institute for Physical Science and Technology. Department of Atmospheric and Oceanic Science. Earth System Science Interdisciplinary Center. Center for Scientific Computation and Mathematical Modeling. National Centers for Environmental Prediction (NCEP). National Weather Service Forecasts for Baltimore/Washington. James S. McDonnell Foundation. National Aeronautics and Space Admininistration. National Oceanic and Atmospheric Administration. Office of Naval Research. W M Keck Foundation.
anlage.umd.edu
Steven M. Anlage Research Page
http://anlage.umd.edu/AnlageQChaos.htm
High Frequency Superconductivity, Microscopy, Nanophysics, and Chaos. Quantum / Wave Chaos. We have developed a simple experiment to study the wave chaos properties of a microwave resonator that has the shape of a quarter bow-tie as shown in Fig. 1. The shape is such that the corresponding ray trajectories are chaotic and all periodic ray trajectories are unstable. The eigenvalue spectrum is determined using transmission (S. Fig 1 Eigenmode image. Of the 1/4-bow-tie wave-chaotic resonator. Knowledge of t...
anlage.umd.edu
Steven M. Anlage Research Page
http://anlage.umd.edu/AnlageFacilities.htm
High Frequency Superconductivity, Microscopy, Nanophysics, and Chaos. Facilities, Equipment and Other Resources of the Anlage Laboratories. Prof Anlage has a fully equipped microwave measurement laboratory. This includes the following items:. 1 Agilent E8364C PNA Microwave Network Analyzer covering the range from 10 MHz to 50 GHz. Provides complete microwave characterization of all two-port microwave devices. 2 Agilent N5242A PNA-X Vector Network Analyzer covering the range from 10 MHz to 26.5 GHz. 1 Cus...