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E-Book

E-Book, Englisch, 336 Seiten, E-Book

McAulay Military Laser Technology for Defense

Technology for Revolutionizing 21st Century Warfare
1. Auflage 2011
ISBN: 978-1-118-01954-2
Verlag: John Wiley & Sons
Format: EPUB
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

Technology for Revolutionizing 21st Century Warfare

E-Book, Englisch, 336 Seiten, E-Book

ISBN: 978-1-118-01954-2
Verlag: John Wiley & Sons
Format: EPUB
 Kopierschutz: Adobe DRM (»Systemvoraussetzungen)

Recent advances in ultra-high-power lasers, including thefree-electron laser, and impressive airborne demonstrations oflaser weapons systems, such as the airborne laser, have shown theenormous potential of laser technology to revolutionize21st century warfare.
Military Laser Technology for Defense, includes onlyunclassified or declassified information. The book focuses onmilitary applications that involve propagation of light through theatmosphere and provides basic relevant background technology. Itdescribes high-power lasers andmasers, including the free-electron laser. Further, MilitaryLaser Technology for Defense addresses how laser technology caneffectively mitigate six of the most pressing military threats ofthe 21st century: attack by missiles, terrorists, chemical andbiological weapons, as well as difficulty in imaging in bad weatherand threats from directed beam weapons and future nuclearweapons. The author believes that laser technology willrevolutionize warfare in the 21st century.

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Autoren/Hrsg.

McAulay, Alastair D.

Weitere Infos & Material

PREFACE.
ACKNOWLEDGMENTS.
ABOUT THE AUTHOR.
I OPTICS TECHNOLOGY FOR DEFENSE SYSTEMS.
1 OPTICAL RAYS.
1.1 Paraxial Optics.
1.2 Geometric or Ray Optics.
1.3 Optics for Launching and Receiving Beams.
2 GAUSSIAN BEAMS AND POLARIZATION.
2.1 Gaussian Beams.
2.2 Polarization.
3 OPTICAL DIFFRACTION.
3.1 Introduction to Diffraction.
3.2 Uncertainty Principle for Fourier Transforms.
3.3 Scalar Diffraction.
3.4 Diffraction-Limited Imaging.
4 DIFFRACTIVE OPTICAL ELEMENTS.
4.1 Applications of DOEs.
4.2 Diffraction Gratings.
4.3 Zone Plate Design and Simulation.
4.4 Gerchberg-Saxton Algorithm for Design of DOEs.
5 PROPAGATION AND COMPENSATION FOR ATMOSPHERICTURBULENCE.
5.1 Statistics Involved.
5.2 Optical Turbulence in the Atmosphere.
5.3 Adaptive Optics.
5.4 Computation of Laser Light Through AtmosphericTurbulence.
6 OPTICAL INTERFEROMETERS AND OSCILLATORS.
6.1 Optical Interferometers.
6.2 Fabry-Perot Resonators.
6.3 Thin-Film Interferometric Filters and DielectricMirrors.
II LASER TECHNOLOGY FOR DEFENSE SYSTEMS.
7 PRINCIPLES FOR BOUND ELECTRON STATE LASERS.
7.1 Laser Generation of Bound Electron State CoherentRadiation.
7.2 Semiconductor Laser Diodes.
7.3 Semiconductor Optical Amplifiers.
8 POWER LASERS.
8.1 Characteristics.
8.2 Solid-State Lasers.
8.3 Powerful Gas Lasers.
9 PULSED HIGH PEAK POWER LASERS.
9.1 Situations in which Pulsed Lasers may be Preferable.
9.2 Mode-Locked Lasers.
9.3 Q-Switched Lasers.
9.4 Space and Time Focusing of Laser Light.
10 ULTRAHIGH-POWER CYCLOTRON MASERS/LASERS.
10.1 Introduction to Cyclotron or Gyro Lasers and Masers.
10.2 Gyrotron-Type Lasers and Masers.
10.3 Vircator Impulse Source.
11 FREE-ELECTRON LASER/MASER.
11.1 Significance and Principles of Free-ElectronLaser/Maser.
11.2 Explanation of Free-Electron Laser Operation.
11.3 Description of High- and Low-Power Demonstrations.
III APPLICATIONS TO PROTECT AGAINST MILITARY THREATS.
12 LASER PROTECTION FROM MISSILES.
12.1 Protecting from Missiles and Nuclear-Tipped ICBMs.
12.2 The Airborne Laser Program for Protecting from ICBMs.
12.3 Protecting from Homing Missiles.
12.4 Protecting Assets from Missiles.
13 LASER TO ADDRESS THREAT OF NEW NUCLEAR WEAPONS.
13.1 Laser Solution to Nuclear Weapons Threat.
13.2 Description of National Infrastructure Laser.
14 PROTECTING ASSETS FROM DIRECTED ENERGY LASERS.
14.1 Laser Characteristics Estimated by Laser WarningDevice.
14.2 Laser Warning Devices.
15 LIDAR PROTECTS FROM CHEMICAL/BIOLOGICAL WEAPONS.
15.1 Introduction to Lidar and Military Applications.
15.2 Description of Typical Lidar System.
15.3 Spectrometers.
15.4 Spectroscopic Lidar Senses Chemical Weapons.
16 94 GHz RADAR DETECTS/TRACKS/IDENTIFIES OBJECTS IN BADWEATHER.
16.1 Propagation of Electromagnetic Radiation ThroughAtmosphere.
16.2 High-Resolution Inclement Weather 94 GHz Radar.
16.3 Applications, Monitoring Space, High Doppler, and Low SeaElevation.
17 PROTECTING FROM TERRORISTS WITH W-BAND.
17.1 Nonlethal Crowd Control with Active Denial System.
17.2 Body Scanning for Hidden Weapons.
17.3 Inspecting Unopened Packages.
17.4 Destruction and Protection of Electronics.
BIBLIOGRAPHY.
INDEX.

Alastair D. McAulay, PhD, is Professor of Electrical andComputer Engineering at Lehigh University. Previously he was NCRprofessor and chairman of the Department of Computer Science andEngineering at Wright State University and program manager in theCentral Research Laboratories of Texas Instruments. He haspublished more than 150 papers and his book Optical ComputerArchitectures, published by Wiley in 1991, has been used forcourses around the world and reprinted several times.
Contact the author at www.linkedin.com/in/alastairmcaulay

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