EE 230: Optical Fiber Communication Lecture 4
EE 230: Optical Fiber Communication Lecture 4

PRESS-RELEASE Max Planck Institute of Quantum
PRESS-RELEASE Max Planck Institute of Quantum

Fiber Optics - University of Calgary
Fiber Optics - University of Calgary

... transmission of digital data at several gigabits per second (Gbps) over long distances with very low error rates ...
Modal and Material Dispersion
Modal and Material Dispersion

10-GHz Bandwidth RF Spectral Analyzer With MHz Resolution
10-GHz Bandwidth RF Spectral Analyzer With MHz Resolution

Chapter 5: Electrons in Atoms
Chapter 5: Electrons in Atoms

... Visible Spectrum: Roy G. Biv Only difference in types of radiation is wavelengths and frequencies Energy increases with greater frequency Violet light has shorter wavelength, greater frequency than red light, therefore violet light has more energy that red light. ...
CHAPTER 7 LEARNING OBJECTIVES - crypt
CHAPTER 7 LEARNING OBJECTIVES - crypt

... 1) Blue light has a frequency of 7.7x1014Hz. What energy does a blue photon have? (in both J and eV) 2) What is the energy of a red photon (in J and eV) in red light with a wavelength of 7x10-7m. 3) Light of frequency 6.7x1014Hz shines on to clean caesium metal. What is max kinetic energy of electro ...
SpectraPart2
SpectraPart2

... Radiation from hot, dense source passes through cool gas ...
The Spring 2006 Qualifying Exam, Part 1
The Spring 2006 Qualifying Exam, Part 1

... 4. There is a threshold frequency for photoemission that is independent of the light intensity. No photoelectrons are emitted for light with frequency lower than this, no matter how great the intensity of the light. (a) These observations cannot be explained consistently using classical physics. Des ...
Communicating Research to the General Public
Communicating Research to the General Public

... After this happens four times, only two oxygens remain from those water molecules, allowing O2 gas to form and the process to start over. Importantly, the OEC eases this process by initially removing electrons from the manganese atoms rather than the oxygens, allowing the electron deficiency to buil ...
Topic 16: Geometric Optics
Topic 16: Geometric Optics

... Then, by using phonetics, Young gave sound values to each of the symbols. Applying this strategy to another inscription confirmed he was on the right track. However, after cracking the code, he ceased further work, calling his achievement the amusement of a few hours’ work. Young often left work unf ...
Optical Gain Experiment Manual
Optical Gain Experiment Manual

Radiation Detectors
Radiation Detectors

Characterisation of the Tunable Laser Source
Characterisation of the Tunable Laser Source

... Fabry-Perot interferometers. The Fabry-Perot interferometer, shown in figure 2, consists of two highly reflective, parallel mirrors that act as a resonant cavity, which filters the incoming light. The resolution of Fabry-Perot interferometer-based optical spectrum analyzers, dependent on the reflect ...
Near-Optimal Dynamical Decoupling of a Qubit
Near-Optimal Dynamical Decoupling of a Qubit

... kHk, provided Sn t1 is sufficiently small to ensure convergence of the time-perturbative expansion. The important point here is that the resulting effective Hamiltonian H 0 ¼ I  B0I þ X  B0X is a purely spin-flip, analytically time-dependent coupling [11]. The correction term OððSn t1 Þnþ1 Þ pot ...
Period 3 Activity Solutions: Electromagnetic Waves – Radiant Energy II
Period 3 Activity Solutions: Electromagnetic Waves – Radiant Energy II

... a) Does the absorbed photon #1 or the emitted photon #2 have more energy? __Photon #1___ How do you know? The absorption of photon causes the electron to move up two energy levels. The emission of photon #2 causes the electron to drop down only one energy level. b) Which photon has a larger frequen ...
Sample Problems for Final
Sample Problems for Final

... convex lens. Where is the image of the two-lens system relative to the second lens? Is the image real or virtual? Is it upright or inverted? What is the absolute value of its height? ...
1.3.6 Electromagnetic radiation Name Symbol Definition SI
1.3.6 Electromagnetic radiation Name Symbol Definition SI

... is the amount (of substance) concentration, and l is the path length. Most tabulations give the specific optical rotatory power, denoted [α]. The wavelength of light used λ (frequently the sodium D line) and the Celsius temperature θ are conventionally written as a subscript and superscript to the s ...
Electron Notes
Electron Notes

... • h = 6.626 x 10-34 J.s (Joule seconds) Energy = (Planck’s constant)(frequency) E=hf Example: What is the energy in Joules of a photon from the violet portion of the rainbow if it has a frequency of 7.23 x 1014 Hz? E=? h = 6.626 x 10-34 Js f = 7.23 x 1014 Hz (or s-1) E = (6.626 x 10-34 Js)(7.23 x 10 ...
Coherent laser radar system using optical homodyne detection
Coherent laser radar system using optical homodyne detection

... laser radar has been demonstrated in CW operation, as well as pulsed amplitude and frequency operation. Distance can be measured by modulating the beam output, and measuring the round trip delay in the return signal, to high accuracy. Additionally, the return light scattered from the target also car ...
The European Concerted Research Action COST P14
The European Concerted Research Action COST P14

... 100-TW laser at the LULI facility were used to produce an aluminum plasma on a thin aluminium foil (83- or 50-nm), and a picosecond x-ray backlighter source. The short-pulse backlighter probed the aluminum plasma at different times by adjusting the delay between the two femtosecond driving-beams. Ab ...
lesson 6: Heisenberg Uncertainty Principle
lesson 6: Heisenberg Uncertainty Principle

1. a) 25% b)86% 2. For my opinion, I think the way to make
1. a) 25% b)86% 2. For my opinion, I think the way to make

Light - FT HELP
Light - FT HELP

... shows how a magnifying glass bends light rays to make things look bigger than they are. Many optical devices use the same basic idea of bending the light to fool your eye and brain so light LOOKS like it came from a different (usually larger or closer) object. OK, now I will tell you something about ...
LOC06f Diffraction of Light
LOC06f Diffraction of Light

... 5. If the laser has a shutter in front of the beam, use it. When not taking data, place the shutter in front of the laser beam. If there is no shutter then block the laser beam or turn off the laser when not using. Introduction In this activity we will continue investigating the phenomena that make ...

Ultrafast laser spectroscopy

Ultrafast laser spectroscopy is a spectroscopic technique that uses ultrashort pulse lasers for the study of dynamics on extremely short time scales (attoseconds to nanoseconds). Different methods are used to examine dynamics of charge carriers, atoms and molecules. Many different procedures have been developed spanning different time scales and photon energy ranges; some common methods are listed below.