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⚫ | : ''See ] for non-directional energy weapons''. | ||
⚫ | A '''directed-energy weapon''' is a type of ] that directs ] in a particular direction by a means other than a ]. It transfers energy to a target for a desired effect. Some of these weapons are real or practicable; some are ]. |
||
* ] (typically ]s or ]s). | |||
* ] with ] (]s). | |||
* Fictional weapons often use some sort of radiation or energetic particle that does not exist in the real world. | |||
⚫ | A '''directed-energy weapon''' is a type of ] that directs ] in a particular direction by a means other than a ]. It transfers energy to a target for a desired effect. Some of these weapons are real or practicable; some are ]. Some of these weapons are known as ''death rays'' or '']s'' and are usually portrayed as projecting energy at a person or object to kill or destroy. | ||
⚫ | See ] for non-directional energy weapons. | ||
Directed-energy weapon uses energy is in various forms. | |||
Some of these weapons are known as '''death rays''' or ''']s''' and are usually portrayed as projecting energy at a person or object to kill or destroy. | |||
⚫ | One type is the ] used typically in ]s or ]s. ] with ] are used in ]s. Fictional weapons often use some sort of radiation or energetic particle that does not exist in the real world. Some lethal directed-energy weapons are under ], but most examples of such weapons appear in ] (or non-functional ]s and ]s). | ||
⚫ | Some lethal directed-energy weapons are under ] and development, but most examples of such weapons appear in ] (or non-functional ]s and ]s). | ||
==Ordinary light== | ==Ordinary light== | ||
Some ]s are bright enough to cause permanent or temporary blindness and have been used to dazzle the crews of bombers during ]. ]-mounted lights may also be used to temporarily blind an opponent. In both cases the primary purpose is to illuminate the target and their use as a weapon is secondary. | |||
*]-mounted lights may also be used to temporarily blind an opponent. | |||
In both cases the primary purpose is to illuminate the target and their use as a weapon is secondary. | |||
==Lasers== | ==Lasers== | ||
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::In 1985 the ] tested an electrolaser. Its targets were missiles and aircraft. This device was known as the Phoenix project within the ] research program. It was first proved by experiment at long range in 1985. | ::In 1985 the ] tested an electrolaser. Its targets were missiles and aircraft. This device was known as the Phoenix project within the ] research program. It was first proved by experiment at long range in 1985. | ||
:This report may have referred to an early test of ]. | :This report may have referred to an early test of ]. | ||
*] in ] is developing a ]-sized electrolaser for the ]. It is intended to incapacitate men and pre-detonate ]s. |
*] in ] is developing a ]-sized electrolaser for the ]. It is intended to incapacitate men and pre-detonate ]s. <ref> (and copied in at least 661 other web pages including )</ref> | ||
* is also developing an electrolaser. | * is also developing an electrolaser. | ||
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==Electric beam in a vacuum== | ==Electric beam in a vacuum== | ||
In a ] (e.g. in ]), an electric discharge can travel a potentially unlimited distance at a velocity slightly slower than the speed of light. This is because there is no significant electric resistance to the flow of electric current in a vacuum. This would make such devices useful to destroy the ]al and ] parts of ]s and ]. However, in a vacuum the electric current cannot ride a laser beam, and some other means must be used to keep the electron beam on track and to prevent it from dispersing |
In a ] (e.g. in ]), an electric discharge can travel a potentially unlimited distance at a velocity slightly slower than the speed of light. This is because there is no significant electric resistance to the flow of electric current in a vacuum. This would make such devices useful to destroy the ]al and ] parts of ]s and ]. However, in a vacuum the electric current cannot ride a laser beam, and some other means must be used to keep the electron beam on track and to prevent it from dispersing (such as a ]). | ||
==Particle beam weapons== | ==Particle beam weapons== | ||
{{main|Particle beam weapon}} | |||
]s include charged and neutral, endoatmospheric and exoatmospheric. ]s as beam weapons are theoretically possible, but practical weapons have not been demonstrated. Certain types of particle beams have the advantage of being self-focusing in the atmosphere. | ]s include charged and neutral, endoatmospheric and exoatmospheric. ]s as beam weapons are theoretically possible, but practical weapons have not been demonstrated. Certain types of particle beams have the advantage of being self-focusing in the atmosphere. | ||
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==Plasma weapons== | ==Plasma weapons== | ||
{{main|Plasma-based weaponry}} | |||
Plasma weapons fire a beam or bolt of ], which is excited matter consisting of electrons and also protons or nuclei. Examples are: | Plasma weapons fire a beam or bolt of ], which is excited matter consisting of electrons and also protons or nuclei. Examples are: | ||
*The ] ('''M'''agnetically '''A'''ccelerated '''R'''ing to '''A'''chieve '''U'''ltra-high '''D'''irected '''E'''nergy and '''R'''adiation). See for more details; the antiaircraft potential of such a system is mentioned. | *The ] ('''M'''agnetically '''A'''ccelerated '''R'''ing to '''A'''chieve '''U'''ltra-high '''D'''irected '''E'''nergy and '''R'''adiation). See for more details; the antiaircraft potential of such a system is mentioned. | ||
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==Sonic and ultrasonic beam weapons== | ==Sonic and ultrasonic beam weapons== | ||
{{main|Sonic weaponry}} | |||
] (USW) are weapons of various types that use sound to injure, incapicitate, or kill an opponent. Some sonic weapons are currently in limited use or in research and development by military and police forces. Others exist only in the realm of science fiction. | |||
==Rayguns: directed-energy weapons in fiction== | ==Rayguns: directed-energy weapons in fiction== | ||
{{main|Raygun}} | |||
]s are a type of directed-energy weapon. They are a classic and widespread feature of science fiction. Types of raygun have various names: ray gun, death ray, beam gun, blaster, laser gun, etc. They supply the general role of guns in the scenarios of many stories. All or most rayguns are fictional as far as now known. | |||
⚫ | ==Urban legends== | ||
⚫ | Engine-stopping rays are a variant that occurs in fiction and myth, and around 1938 such stories were circulating in Britain. The tales varied but in general terms told of tourists whose car engine suddenly died and were then approached by a German soldier who told them that they had to wait. The soldier returned a short time later to say that the engine would now work and the tourists drove off. A possible origin of some of these stories arises from the testing of the television transmitter in ], Germany. Because electrical noise from car engines would interfere with field strength measurements, sentries would stop all traffic in the vicinity for the twenty minutes or so required for a test. A distorted retelling of the events might give rise to the idea that a transmission killed the engine (Jones 1978). | ||
==History== | ==History== | ||
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===Ancient inventors=== | ===Ancient inventors=== | ||
According to ], the concept of the "burning mirror" or ''death ray'' began with ] who created a mirror with an adjustable focal length (or more likely, a series of mirrors focused on a common point) to focus sunlight on ships of the ] fleet as they invaded ], setting them on fire. Historians point out that the earliest accounts of the battle did not mention a "burning mirror", but merely stated that Archimedes' ingenuity combined with a way to hurl fire were relevant to the victory. A ] writer hundreds of years later is suggested to have imagined this 2200-year-old death ray, which is attributed to Archimedes. Some attempts to replicate this feat have had some success (though not the attempt by the ] television program). In particular, an experiment by students at ] showed that a mirror-based weapon was at least possible, if not necessarily practical. |
According to ], the concept of the "burning mirror" or ''death ray'' began with ] who created a mirror with an adjustable focal length (or more likely, a series of mirrors focused on a common point) to focus sunlight on ships of the ] fleet as they invaded ], setting them on fire. Historians point out that the earliest accounts of the battle did not mention a "burning mirror", but merely stated that Archimedes' ingenuity combined with a way to hurl fire were relevant to the victory. A ] writer hundreds of years later is suggested to have imagined this 2200-year-old death ray, which is attributed to Archimedes. Some attempts to replicate this feat have had some success (though not the attempt by the ] television program). In particular, an experiment by students at ] showed that a mirror-based weapon was at least possible, if not necessarily practical. <ref></ref> | ||
===Grindell-Matthews=== | ===Grindell-Matthews=== | ||
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===Tesla=== | ===Tesla=== | ||
], a noted inventor, scientist and electrical engineer, developed a ] which used an ultra high energy beam of atoms to damage a material target by hitting it, and thus disrupting its atomic and molecular structure. He was noted for making some remarkable claims, among them that he had this "]" weapon <ref>"Tesla's Ray". Time, July 23, 1934.</ref> The press called it a "''peace ray''" or death ray. <ref>"Tesla, at 78, Bares New 'Death-Beam"', New York Times, July 11, 1934.</ref> <ref> "Tesla Invents Peace Ray". New York Sun, July 10, 1934. </ref> | |||
] (1856 - 1943) was a noted inventor, scientist and electrical engineer. He invented ]s, transformers, ] electric ]s and was a major early pioneer of ] technology. | |||
In 1937, Tesla composed a treatise entitled "''The Art of Projecting Concentrated Non-dispersive Energy through the Natural Media''". <ref> Seifer, Marc J., "Wizard, the Life and Times of Nikola Tesla". ISBN 1-559723-29-7 (HC) pg. 454 </ref> This treatise is currently in the ] archive in ]. It described a open ended vacuum tube with a gas jet seal that allowed particles to exit, a method of charging particles to millions of volts, and a method of creating and directing nondispersive particle streams (through ] repulsion). <ref> Seifer, "Wizard" pg. 454 </ref> | |||
He was also noted for making some outlandish claims, among them that he had developed what he called a "]" weapon, or death ray. This death ray would "send concentrated beams of particles through the free air, of such tremendous energy that they will bring down a fleet of 10,000 enemy airplanes at a distance of 250 miles from a defending nation's border and will cause armies of millions to drop dead in their tracks", as said in an article at the time. He offered this invention to the ] and to several European countries without success. Various ] persist regarding the nature of this device and the whereabouts of Tesla's model or schematics for it. | |||
Theories persist regarding the nature of this ]. Immediatly after his death, his effects were confiscated and the room's safe opened. The Federal Bureau of Investigation never found a prototype. The so-called "''peace ray''" constitues a part of some ] as a means of destruction. | |||
===H.G. Wells=== | ===H.G. Wells=== | ||
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=== Nazis === | === Nazis === | ||
In the later phases of ], ] increasingly put its hopes on research into technologically revolutionary ]s, the '']''. | In the later phases of ], ] increasingly put its hopes on research into technologically revolutionary ]s, the '']''. Among the directed-energy weapons the Nazis investigated were ], using parabolic reflectors to project sound waves of destructive force. This Nazi research included searching in ] in the hope that some of the powerful weapons and ] described in the ] and other old Indian books were the real products of supposed ancient technology, rather than ] based on lightning and other destructive natural forces. | ||
Among the directed-energy weapons the Nazis investigated were ], using parabolic reflectors to project sound waves of destructive force. | |||
This Nazi research included searching in ] in the hope that some of the powerful weapons and ] described in the ] and other old Indian books were the real products of supposed ancient technology, rather than ] based on lightning and other destructive natural forces. | |||
===Star Wars=== | ===Star Wars=== | ||
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Enthusiasm for these ideas, and the ] they implied, waned in the ]. Research proceeded, however, and by ], this led to the THEL project, which is described ]. | Enthusiasm for these ideas, and the ] they implied, waned in the ]. Research proceeded, however, and by ], this led to the THEL project, which is described ]. | ||
⚫ | ==Urban legends== | ||
⚫ | Engine-stopping rays are a variant that occurs in fiction and myth, and around 1938 such stories were circulating in Britain. The tales varied but in general terms told of tourists whose car engine suddenly died and were then approached by a German soldier who told them that they had to wait. The soldier returned a short time later to say that the engine would now work and the tourists drove off. A possible origin of some of these stories arises from the testing of the television transmitter in ], Germany. Because electrical noise from car engines would interfere with field strength measurements, sentries would stop all traffic in the vicinity for the twenty minutes or so required for a test. A distorted retelling of the events might give rise to the idea that a transmission killed the engine (Jones 1978). | ||
==Energy devices which may be confused with directed-energy weapons== | ==Energy devices which may be confused with directed-energy weapons== | ||
The term ] includes two sorts of weapons, but neither of these is a directed-energy weapon, despite its name: |
The term ] includes two sorts of weapons, but neither of these is a directed-energy weapon, despite its name: | ||
*Electric shock prod: it administers an electric shock on contact. It is not strictly a ], as it does not cause any effect at a distance. | *Electric shock prod: it administers an electric shock on contact. It is not strictly a ], as it does not cause any effect at a distance. | ||
*Guns which fire an electrified projectile. | *Guns which fire an electrified projectile. | ||
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The real ] is not a gun. Occasionally ] ]s misuse the name "thermic lance" to mean a ]. | The real ] is not a gun. Occasionally ] ]s misuse the name "thermic lance" to mean a ]. | ||
==External articles and further reading== | |||
==References== | |||
;General references | |||
<!-- The "pages=p" is technically wrong, but added because the title ends with | <!-- The "pages=p" is technically wrong, but added because the title ends with | ||
a number and this would otherwise be confusing. --> | a number and this would otherwise be confusing. --> | ||
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|origyear=1978|publisher=Coronet|id=ISBN 0340241691|pages=p84,124}} | |origyear=1978|publisher=Coronet|id=ISBN 0340241691|pages=p84,124}} | ||
;Citations and footnotes | |||
==External links== | |||
<references/> | |||
;Websites | |||
* | * | ||
<!-- * --- has gone 404 --> | <!-- * --- has gone 404 --> | ||
<!-- * --- has gone 404 --> | <!-- * --- has gone 404 --> | ||
* | * | ||
* {{Note|linkAP}} (and copied in at least 661 other web pages including ) | |||
* {{Note|archimedes}} | |||
] | ] |
Revision as of 19:15, 10 July 2006
- See energy weapon for non-directional energy weapons.
A directed-energy weapon is a type of energy weapon that directs energy in a particular direction by a means other than a projectile. It transfers energy to a target for a desired effect. Some of these weapons are real or practicable; some are science fiction. Some of these weapons are known as death rays or rayguns and are usually portrayed as projecting energy at a person or object to kill or destroy.
Directed-energy weapon uses energy is in various forms. One type is the electromagnetic radiation used typically in lasers or masers. Particles with mass are used in particle beam weapons. Fictional weapons often use some sort of radiation or energetic particle that does not exist in the real world. Some lethal directed-energy weapons are under active research and development, but most examples of such weapons appear in science fiction (or non-functional toys and film props).
Ordinary light
Some searchlights are bright enough to cause permanent or temporary blindness and have been used to dazzle the crews of bombers during World War II. Handgun-mounted lights may also be used to temporarily blind an opponent. In both cases the primary purpose is to illuminate the target and their use as a weapon is secondary.
Lasers
Lasers are very well known in science fiction as a type of raygun. In the real world, lasers are often used for sighting, ranging and targeting for guns; but the laser beam is not the source of the weapon's firepower.
Laser weapons usually generate brief high-energy pulses. A million joules delivered as a laser pulse is roughly the same energy as 200g of high explosive, and has the same basic effect on a target. The primary damage mechanism is mechanical shear, caused by reaction (like a rocket) when the surface of the target is explosively evaporated.
Most existing weaponized lasers are gas dynamic lasers. Fuel, or a powerful turbine, pushes the lasing media through a circuit or series of orifices. The high-pressures and heating cause the medium to form a plasma and lase. A big difficulty with these systems is preserving the high-precision mirrors and windows of the laser resonating cavity. Most systems use a low-powered "oscillator" laser to generate a coherent wave, and then amplify it. Some experimental laser amplifiers do not use windows or mirrors, but have open orifices, which cannot be destroyed by high energies.
There is research on real lasers as dazzling non-lethal weapons.
Tactical considerations
Lasers have three main advantages over conventional weaponry:
- Laser beams travel at the speed of light, unlike projectile weapons, so there is no need to aim ahead to allow for the target moving while the shot travels.
- Some lasers run on electricity, which can be cheaply generated, reducing the need for expensive and finite ammunition.
- Lasers do not produce recoil.
Since lasers can theoretically defeat artillery and missile attacks, any group fielding an effective laser system will gain decisive advantages in ground, air and space combat. Under radar control, lasers have shot artillery shells in flight, including mortar rounds. This suggests that a primary application of lasers might be as part of a defensive system.
The main difficulty with currently practical lasers is the high expense and fragility of their mirrors and mirror-pointing systems.
Some believe that mirrors or other countermeasures can reduce the effectiveness of high energy lasers. This has not been demonstrated. Small defects in mirrors absorb energy, and the defects rapidly expand across the surface. Protective mirroring on the outside of a target could easily be made less effective by incidental damage and by dust and dirt on its surface.
Problems with lasers
Blooming
Laser beams begin to cause plasma breakdown in the air at power densities of around a megajoule per square centimeter. This effect, called "blooming", causes the laser to defocus and to lose energy to the atmosphere. It can be more severe if there is fog or smoke or dust in the air.
There are several ways to stop or reduce blooming:
- The beam can be distributed over a large mirror that focuses the power on the target, to keep energy density in the air too low for blooming to happen. This requires a large, very precise, fragile mirror, mounted somewhat like a searchlight, requiring bulky machinery to slew the mirror to aim the laser.
- A phased array. For the usual laser wavelengths this method would need billions of micrometre-size antennas, and no way to make these is known. Phased arrays could theoretically also perform phase-conjugate amplification (see below).
- A phase-conjugate laser system. Here, a "finder" or "guide" laser illuminates the target. Any mirror-like ("specular") points on the target reflect light that is sensed by the weapon's primary amplifier. The weapon-power amplifier then amplifies inverted waves in a positive feedback loop, destroying the target with shockwaves as the specular regions evaporate. This avoids the blooming problem because the waves from the target passed through the blooming, and therefore show the most conductive optical path; this automatically corrects for the distortions caused by blooming. Experimental systems using this method usually use special chemicals to form a "phase conjugate mirror". In most systems, the mirror overheats dramatically at weaponized powers.
- A very short pulse that finishes before blooming interferes.
- Tailoring the pulse timing, power, and/or wavelength of the laser to induce a shockwave that evacuates the path between the target and the weapon. Without air in the laser's path, blooming will not occur. However, it is difficult to achieve the amount of power needed to blast the air out of the way.
- Limiting weapons to use in a vacuum environment, for example space.
Evaporated target material shading the target
Another problem with weaponized lasers is that the evaporated material from the surface of the target begins to shade the surface. There are several approaches to this problem:
- One is to induce a standing shockwave in the ablation cloud. The shockwave then continues to perform damage.
- Another scheme is to scan the target faster than the shockwave.
- Another theoretical possibility is to induce plasmic optical mixing at the target. In this scheme, the transparency of the target's ablation cloud to one laser is modulated by another laser, perhaps by tuning the laser to the absorption spectra of the ablation cloud, and inducing population inversion in the cloud. The other laser then induces local lasing in the ablation cloud. The beat frequency that results can induce frequencies that penetrate the ablation cloud.
High power consumption
One major problem with laser weapons (and directed-energy weapons in general) is their high energy requirements. Existing methods of storing, conducting, transforming and directing energy are inadequate to produce a convenient hand-held weapon. Existing lasers need much energy and bulky cooling equipment because they are inefficient and waste much energy as heat.
This problem of storing and/or supplying energy in the form of electricity is offset in chemical lasers by using energy released in a suitable chemical reaction instead of electrical energy. Chemical oxygen iodine laser (hydrogen peroxide with iodine) and deuterium fluoride laser (atomic fluorine reacting with deuterium) are two examples of laser types capable of megawatt-range output of a continuous beam. Storing and transporting the chemical fuel presents its own problems with these lasers, and the problems of cooling and overall inefficiency remain.
The beam being absorbed by obscuration in the air
A laser beam or particle beam passing through air can be absorbed or scattered by rain, snow, dust, fog, smoke, or suchlike that a bullet would easily brush aside. This effect adds to blooming.
Electrolaser
An electrolaser lets blooming occur, and then sends a powerful electric current down the conducting ionized track of plasma so formed, somewhat like lightning. It functions as a giant high energy long-distance version of the Taser or stun gun.
Alternating current is sent through a series of step-up transformers, increasing the voltage and decreasing the amperage. The final voltage may be between 10 and 10 volts. This current is fed into the laser beam. To complete the electric circuit, there should be either a second laser beam, or a ground return from the target to the last transformer in the step-up series. This electric arc could kill or incapacitate a human target through electrocution. Any electric or electronic devices in the target may be seriously damaged, disabled or destroyed. Because it relies on the blooming effect, there must be air or some other gas between the electrolaser weapon and the target.
Electrolasers often occur in science fiction and videogames, such as perhaps the "Volt Auto Rifle" in Command & Conquer: Renegade.
- There was an unconfirmed report that:-
- In 1985 the U.S. Navy tested an electrolaser. Its targets were missiles and aircraft. This device was known as the Phoenix project within the Strategic Defense Initiative research program. It was first proved by experiment at long range in 1985.
- This report may have referred to an early test of MIRACL.
- Xtreme Alternative Defense Systems in Anderson, Indiana is developing a rifle-sized electrolaser for the U.S. Marines. It is intended to incapacitate men and pre-detonate IEDs.
- Ionatron is also developing an electrolaser.
Microwaves
Microwave guns powerful enough to injure humans are possible.
- Active Denial System is a microwave source, to heat the water in the target's skin and thus cause incapacitating pain. Being developed by the Air Force Research Laboratory in New Mexico by researchers working with Raytheon for riot-control duty in Iraq. While intended to cause severe pain while leaving no lasting damage, there has yet to be testing for long-term side effects of exposure to the microwave beam. It can destroy electronics.
Low-powered lasers
There is an imitation shotgun which fires a low-powered laser beam at a target which is covered with reflective 90° corners designed to send the beam back where it came from to be detected by a detector on the gun. This is only for target practice without using up ammunition; it has the disadvantage (for a shotgun user) that the beam travels at the speed of light and in a straight line, without teaching the shooter to allow for the effects of wind deflecting the fired shot and the target moving while the shot travels.
Laser dazzlers
Main article: Dazzler (weapon)Dazzlers generate a beam of intense visible light, intended to temporarily blind and/or disorient the enemy. Optionally they can operate in infrared, when their targets are electronic sensors. Most of the contemporary systems are man-portable, and operate in either red (a semiconductor laser) or green (a DPSS laser) part of the spectrum.
Laser designators
Main article: Laser designatorLaser designators are usually infrared lasers used for selective illumination of a target for navigating a laser guided bomb. They are relatively high-power, often using a solid-state laser, eg. Nd:YAG or Eu:YAG.
Pulsed Energy Projectile
Main article: Pulsed Energy ProjectilePulsed Energy Projectile or PEP systems emits an infrared laser pulse which creates rapidly expanding plasma when meeting the target. The resulting sound, shock and electromagnetic waves stun the target and cause pain and temporary paralysis. The weapon is under development and is intended to be used as a non-lethal weapon in crowd control.
THEL
Main article: Tactical High Energy LaserTHEL (Tactical High Energy Laser) is a weaponized deuterium fluoride laser developed in a joint research project of Israel and the U.S.. It is designed to shoot down aircraft and missiles.
Airborne Laser
Main article: Airborne LaserThe U.S. Air Force's Airborne Laser, or Advanced tactical laser, is a plan to mount a CO2 gas laser or COIL chemical laser on a modified Boeing 747 and use it to shoot down missiles.
Ultraviolet laser
HSV Technologies of San Diego is developing a laser weapon to paralyze animals (testing for later use on humans) by an electric charge generated by the laser beam. It is described as an ultraviolet laser and not an electrolaser.
Electric beam in a vacuum
In a vacuum (e.g. in space), an electric discharge can travel a potentially unlimited distance at a velocity slightly slower than the speed of light. This is because there is no significant electric resistance to the flow of electric current in a vacuum. This would make such devices useful to destroy the electrical and electronic parts of satellites and spacecraft. However, in a vacuum the electric current cannot ride a laser beam, and some other means must be used to keep the electron beam on track and to prevent it from dispersing (such as a particle beam).
Particle beam weapons
Main article: Particle beam weaponParticle beam weapons include charged and neutral, endoatmospheric and exoatmospheric. Particle beams as beam weapons are theoretically possible, but practical weapons have not been demonstrated. Certain types of particle beams have the advantage of being self-focusing in the atmosphere.
Blooming is not limited to lasers, but is also a problem in particle beam weapons. Energy that would otherwise be focused on the target spreads out; the beam becomes less effective.
- Thermal blooming occurs in both charged and neutral particle beams, and occurs when particles bump into one another under the effects of thermal vibration, or bump into air molecules. It is likely that a particle beam (except electrolasers) fired into air will make merely a short hot flame like a blowtorch.
- Electrical blooming occurs only in charged particle beams, as ions of like charge repel one another.
Plasma weapons
Main article: Plasma-based weaponryPlasma weapons fire a beam or bolt of plasma, which is excited matter consisting of electrons and also protons or nuclei. Examples are:
- The MARAUDER (Magnetically Accelerated Ring to Achieve Ultra-high Directed Energy and Radiation). See this link for more details; the antiaircraft potential of such a system is mentioned.
- This article explains theories about ball lightning, which may be a type of plasma, which if weaponized could produce beam weapons guided in the same sense as an Anti-tank guided missile
- The plasma rifle is a staple of science fiction. There may have been influence from the real plasma torch used to cut metal.
Sonic and ultrasonic beam weapons
Main article: Sonic weaponrySonic and ultrasonic weapons (USW) are weapons of various types that use sound to injure, incapicitate, or kill an opponent. Some sonic weapons are currently in limited use or in research and development by military and police forces. Others exist only in the realm of science fiction.
Rayguns: directed-energy weapons in fiction
Main article: RaygunRayguns are a type of directed-energy weapon. They are a classic and widespread feature of science fiction. Types of raygun have various names: ray gun, death ray, beam gun, blaster, laser gun, etc. They supply the general role of guns in the scenarios of many stories. All or most rayguns are fictional as far as now known.
History
Mythology
Before modern technology developed, many mythologies described gods or demons using weapons that make lightning, such as Zeus's and Jupiter's thunderbolts, Thor's hammer Mjolnir, and the Hindu god Indra's spear (the vajrā).
Ancient inventors
According to mythology, the concept of the "burning mirror" or death ray began with Archimedes who created a mirror with an adjustable focal length (or more likely, a series of mirrors focused on a common point) to focus sunlight on ships of the Roman fleet as they invaded Syracuse, setting them on fire. Historians point out that the earliest accounts of the battle did not mention a "burning mirror", but merely stated that Archimedes' ingenuity combined with a way to hurl fire were relevant to the victory. A Byzantine writer hundreds of years later is suggested to have imagined this 2200-year-old death ray, which is attributed to Archimedes. Some attempts to replicate this feat have had some success (though not the attempt by the MythBusters television program). In particular, an experiment by students at MIT showed that a mirror-based weapon was at least possible, if not necessarily practical.
Grindell-Matthews
After the astonishing technological advancement during World War I, many such schemes began to appear credible. Harry Grindell-Matthews tried to sell such a ray to the British Air Ministry after that war. He failed to appear to demonstrate his apparatus, however. It was apparently taken to France but has not resurfaced, leading to various conspiracy theory ideas about what might have happened to it, or who might have developed it later. Radar may be a by-product of this research.
Robert Watson-Watt
In 1935 the British Air Ministry asked Robert Watson-Watt of the Radio Research Station whether a "death ray" was possible. He and colleague Arnold Wilkins quickly concluded that it was not feasible, but as a consequence suggested using radio for the detection of aircraft and this started the development of radar in Britain. See: History of radar#Robert Watson-Watt.
Tesla
Nikola Tesla, a noted inventor, scientist and electrical engineer, developed a particle beam weapon which used an ultra high energy beam of atoms to damage a material target by hitting it, and thus disrupting its atomic and molecular structure. He was noted for making some remarkable claims, among them that he had this "teleforce" weapon The press called it a "peace ray" or death ray.
In 1937, Tesla composed a treatise entitled "The Art of Projecting Concentrated Non-dispersive Energy through the Natural Media". This treatise is currently in the Nikola Tesla Museum archive in Belgrade. It described a open ended vacuum tube with a gas jet seal that allowed particles to exit, a method of charging particles to millions of volts, and a method of creating and directing nondispersive particle streams (through electrostatic repulsion).
Theories persist regarding the nature of this particle beam weapon. Immediatly after his death, his effects were confiscated and the room's safe opened. The Federal Bureau of Investigation never found a prototype. The so-called "peace ray" constitues a part of some conspiracy theories as a means of destruction.
H.G. Wells
H. G. Wells, in his book The War of the Worlds, for the first time used a "death ray" like laser in science fiction, in the form of the Martians "Heat-Ray", which used a heat beam with many properties of the modern laser as a weapon. The weapon used a parabolic mirror to focus and direct a beam of pure heat that had many of the properties of light. This ultimately made 'death ray' like weapons popular in science fiction, which may have stimulated interest in developing real-life directed-energy weapons.
Nazis
In the later phases of WWII, Nazi Germany increasingly put its hopes on research into technologically revolutionary secret weapons, the Wunderwaffen. Among the directed-energy weapons the Nazis investigated were sonic weaponry, using parabolic reflectors to project sound waves of destructive force. This Nazi research included searching in India in the hope that some of the powerful weapons and flying craft described in the Mahabharata and other old Indian books were the real products of supposed ancient technology, rather than mythology based on lightning and other destructive natural forces.
Star Wars
In the 1980s, Ronald Reagan revived the idea as a matter for public funding with his Strategic Defense Initiative program, which was immediately nicknamed "Star Wars" (this lead to an immediate lawsuit by George Lucas), due to its objective to put weapons in space. It was proposed that lasers, perhaps including space-based X-ray lasers, could destroy ICBMs in flight. The program was heavily criticized on both theoretical and practical grounds. It is not clear whether this was part of a general plan to facilitate the collapse of the Soviet Union by misdirecting the Soviets into investing in research that had no practical outputs (this was a common Cold War strategy on both sides).
Enthusiasm for these ideas, and the arms race they implied, waned in the 1990s. Research proceeded, however, and by 2003, this led to the THEL project, which is described above.
Urban legends
Engine-stopping rays are a variant that occurs in fiction and myth, and around 1938 such stories were circulating in Britain. The tales varied but in general terms told of tourists whose car engine suddenly died and were then approached by a German soldier who told them that they had to wait. The soldier returned a short time later to say that the engine would now work and the tourists drove off. A possible origin of some of these stories arises from the testing of the television transmitter in Feldberg, Germany. Because electrical noise from car engines would interfere with field strength measurements, sentries would stop all traffic in the vicinity for the twenty minutes or so required for a test. A distorted retelling of the events might give rise to the idea that a transmission killed the engine (Jones 1978).
Energy devices which may be confused with directed-energy weapons
The term electroshock gun includes two sorts of weapons, but neither of these is a directed-energy weapon, despite its name:
- Electric shock prod: it administers an electric shock on contact. It is not strictly a gun, as it does not cause any effect at a distance.
- Guns which fire an electrified projectile.
The real thermic lance is not a gun. Occasionally science fiction authors misuse the name "thermic lance" to mean a raygun.
External articles and further reading
- General references
- Jones, R.V. Most Secret War:British Scientific Intelligence 1939-1945. Coronet. pp. p84, 124. ISBN 0340241691.
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- Citations and footnotes
- Wired News article "Weapons Freeze, Microwave Enemies" (and copied in at least 661 other web pages including this link)
- Archimedes Death Ray: Idea Feasibility Testing
- "Tesla's Ray". Time, July 23, 1934.
- "Tesla, at 78, Bares New 'Death-Beam"', New York Times, July 11, 1934.
- "Tesla Invents Peace Ray". New York Sun, July 10, 1934.
- Seifer, Marc J., "Wizard, the Life and Times of Nikola Tesla". ISBN 1-559723-29-7 (HC) pg. 454
- Seifer, "Wizard" pg. 454
- Websites
- Ionatron - Maker of directed-energy weapons
- Wired News (AP) article on weapons deployment in Iraq, Active Denial System and Stunstrike, July 10, 2005