Particle beam weapon

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A particle beam weapon uses an ultra high energy beam of atoms or electrons (i.e., a particle beam) to damage a material target by hitting it, and thus disrupting its atomic and molecular structure. A particle beam weapon is a type of directed-energy weapon which directs energy in a particular direction by a means of particle projectiles with mass. Some of these weapons are real or practicable; some are science fiction[citation needed].

An electron particle beam weapon works by disrupting electric circuits and electronic devices in its targets. If any living animals or persons were to be caught by the electric discharge of an electron beam weapon, they would most likely be electrocuted. An electron beam weapon can also damage or melt its target by the electrical resistance heating of the target[citation needed].

Contents

[edit] Beam generation

A neutral particle beam weapon ionizes hydrogen gas by either stripping an electron off of each hydrogen atom, or by allowing each hydrogen atom to capture an extra electron. When hydrogen gains electrons it forms anions; when hydrogen atoms lose electrons they form cations. A particle beam weapon that accelerates anions uses a traveling wave type particle accelerator. In this kind of ion accelerator, the negative ions are released inside a cylindrical ion acceleration chamber. This chamber has an electrode with an alternating electric charge of up to 1,000,000,000 (109) volts inside it[citation needed]. This is a theoretical weapon.

These stages happen:-

  1. While the charge on the electrode is positive, the ions are attracted to the negative charge on the electrode, and thus bunched around it.
  2. The alternating voltage switches the charge to negative on the accelerating electrode.
  3. The negative charge electrostatically repels the negative ions and accelerates them to near the velocity of light.
  4. The resulting high energy beam of anions passes through a chamber filled with low pressure gas.
  5. There, collisions with the gas strip the extra electrons from the anions, and thus make the particle beam neutral.
  6. The particle beam proceeds straight to its target, and damages it by running into it, and by disrupting the structure of the target with its kinetic energy[citation needed].

Cyclotron particle accelerators, linear particle accelerators, and synchroton particle acclerators can accelerate positively charged hydrogen ions until their velocity approaches the speed of light, and each individual ion has a kinetic energy range of 100 MeV to 1000 MeV or more. Then the resulting high energy protons can capture electrons from electron emitter electrodes, and be thus electrically neutralized. This creates an electrically neutral beam of high energy hydrogen atoms, that can proceed straight line at near the velocity of light to zap its target and thus damage it[citation needed].

The pulsed particle beam emitted by a particle beam weapon may contain up to 1 gigajoule of kinetic energy or more. The speed of a beam approaching the speed of light (186,000 miles per second) in combination with the energy created by the weapon would negate any realistic means of defending a target against the beam. Target hardening through shielding or materials selection would be impractical or ineffective [1], especially if the beam can be generated successfully and pointed at the target. [2]

[edit] History

[edit] Modern experiments

Several modern experimental particle beam weapons were tested at scientific laboratories such as the Los Alamos National Laboratory in New Mexico by both the United States and the USSR from the 1950s to the 1980s[citation needed].

The U.S. Defense Strategic Defense Initiative Organization put into development the technology of a neutral particle beam for strategic defense applications. In mid 1989, it was to be part of the Beam Experiments Aboard a Rocket (BEAR) in New Mexico. [3]

The Medusa particle beam weapon is powered by any standard diesel of the type found in an Army Hummer and/or a ground based diesel generator. It’s currently in beta with the first major prototype slated for testing towards the end of this year. [4] [5]


[edit] See also

Non-fiction
Fiction

[edit] External articles and references

Citations
  1. ^ Richard M. Roberds, "Introducing the Particle-Beam Weapon". Air University Review (airpower.maxwell.af.mil), July-August 1984.
  2. ^ "Neutral Particle Beam (NPB)". Federation of American Scientists, 2005.
  3. ^ G. J. Nunz, "BEAR (Beam Experiments Aboard a Rocket) Project. Volume 1: Project Summary". Storming Media LLC., 2001.
  4. ^ Capt. R. Adams (ret.), "[1]". 2007.
  5. ^ Jed Margolin, "[2]". 2002.