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Monday, May 10, 2021

Directed-energy weapon

From Wikipedia, the free encyclopedia

A directed-energy weapon (DEW) is a ranged weapon that damages its target with highly focused energy, including laser, microwaves, and particle beams. Potential applications of this technology include weapons that target personnel, missiles, vehicles, and optical devices.

In the United States, the Pentagon, DARPA, the Air Force Research Laboratory, United States Army Armament Research Development and Engineering Center, and the Naval Research Laboratory are researching directed-energy weapons and railguns to counter ballistic missiles, hypersonic cruise missiles, and hypersonic glide vehicles. These systems of missile defense are expected to come online no sooner than the mid to late-2020s.

Russia, China, India and the United Kingdom are also developing directed-energy weapons while Iran and Turkey claim to have directed-energy weapons in active service. The first usage of directed-energy weapons in a combat was claimed to have occurred in Libya in August 2019 by Turkey, which claimed to use the ALKA Directed-energy weapon.

After decades of research and development, directed-energy weapons are still at the experimental stage and it remains to be seen if or when they will be deployed as practical, high-performance military weapons.

Operational advantages

Directed energy weapons could have several main advantages over conventional weaponry:

  • Directed-energy weapons can be used discreetly; radiation above and below the visible spectrum is invisible and does not generate sound.
  • Light is, for all practical purposes, essentially unaffected by gravity, windage and Coriolis force, giving it an almost perfectly flat trajectory. This makes aim much more precise and extends the range to line-of-sight, limited only by beam diffraction and spread (which dilute the power and weaken the effect), and absorption or scattering by intervening atmospheric contents.
  • Lasers travel at light-speed and have near infinite range and are therefore suitable for use in space warfare.
  • Laser weapons potentially eliminate many logistical problems in terms of ammunition supply, as long as there is enough energy to power them.
  • Depending on several operational factors, directed-energy weapons may be cheaper to operate than conventional weapons in certain contexts.

Microwave weapons

Although some devices are labeled as microwave weapons, the microwave range is commonly defined as being between 300 MHz and 300 GHz, which is within the RF range—these frequencies having wavelengths of 1 millimeter to 1 meter. Some examples of weapons which have been publicized by the military are as follows:

  • Active Denial System is a millimeter wave source that heats the water in a human target's skin and thus causes incapacitating pain. It was developed by the U.S. Air Force Research Laboratory and Raytheon for riot-control duty. Though intended to cause severe pain while leaving no lasting damage, concern has been voiced as to whether the system could cause irreversible damage to the eyes. There has yet to be testing for long-term side effects of exposure to the microwave beam. It can also destroy unshielded electronics. The device comes in various sizes, including attached to a Humvee.
  • Vigilant Eagle is a proposed airport defense system that directs high-frequency microwaves towards any projectile that is fired at an aircraft. The system consists of a missile-detecting and tracking subsystem (MDT), a command and control system, and a scanning array. The MDT is a fixed grid of passive infrared (IR) cameras. The command and control system determines the missile launch point. The scanning array projects microwaves that disrupt the surface-to-air missile's guidance system, deflecting it from the aircraft.
  • Bofors HPM Blackout is a high-powered microwave weapon that is said to be able to destroy at short distance a wide variety of commercial off-the-shelf (COTS) electronic equipment and is purportedly non-lethal.
  • The effective radiated power (ERP) of the EL/M-2080 Green Pine radar makes it a hypothetical candidate for conversion into a directed-energy weapon, by focusing pulses of radar energy on target missiles. The energy spikes are tailored to enter missiles through antennas or sensor apertures where they can fool guidance systems, scramble computer memories or even burn out sensitive electronic components.
  • AESA radars mounted on fighter aircraft have been slated as directed energy weapons against missiles, however, a senior US Air Force officer noted: "they aren't particularly suited to create weapons effects on missiles because of limited antenna size, power and field of view". Potentially lethal effects are produced only inside 100 meters range, and disruptive effects at distances on the order of one kilometer. Moreover, cheap countermeasures can be applied to existing missiles.
  • Counter-electronics High Power Microwave Advanced Missile Project

Laser weapons

A laser weapon is a directed-energy weapon based on lasers.

Particle-beam weapons

Particle-beam weapons can use charged or neutral particles, and can be either endoatmospheric or exoatmospheric. Particle beams as beam weapons are theoretically possible, but practical weapons have not been demonstrated yet. Certain types of particle beams have the advantage of being self-focusing in the atmosphere.

Blooming is also a problem in particle-beam weapons. Energy that would otherwise be focused on the target spreads out and 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.
  • Electrical blooming occurs only in charged particle beams, as ions of like charge repel one another.

Plasma weapons

Plasma weapons fire a beam, bolt, or stream of plasma, which is an excited state of matter consisting of atomic electrons & nuclei and free electrons if ionized, or other particles if pinched.

The MARAUDER (Magnetically Accelerated Ring to Achieve Ultra-high Directed-Energy and Radiation) used the Shiva Star project (a high energy capacitor bank which provided the means to test weapons and other devices requiring brief and extremely large amounts of energy) to accelerate a toroid of plasma at a significant percentage of the speed of light.

The Russian Federation is developing plasma weapons.

Sonic weapons

Tests performed on mice show the threshold for both lung and liver damage occurs at about 184 dB. Damage increases rapidly as intensity is increased. Noise-induced neurological disturbances in humans exposed to continuous low frequency tones for durations longer than 15 minutes involved development of immediate and long-term problems affecting brain tissue. The symptoms resembled those of individuals who had suffered minor head injuries. One theory for a causal mechanism is that the prolonged sound exposure resulted in enough mechanical strain to brain tissue to induce an encephalopathy.

Long Range Acoustic Device (LRAD)

The LRAD is the round black device on top of the New York City police Hummer.

The Long Range Acoustic Device (LRAD) is an acoustic hailing device developed by LRAD Corporation to send messages and warning tones over longer distances or at higher volume than normal loudspeakers. LRAD systems are used for long-range communications in a variety of applications including as a means of non-lethal, non-kinetic crowd control.

According to the manufacturer's specifications, the systems weigh from 15 to 320 pounds (6.8 to 145.1 kg) and can emit sound in a 30°- 60° beam at 2.5 kHz.

History

Mirrors of Archimedes

Archimedes may have used mirrors acting collectively as a parabolic reflector to burn ships attacking Syracuse.

According to a legend, Archimedes 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's ingenuity combined with a way to hurl fire were relevant to the victory. Some attempts to replicate this feat have had some success; in particular, an experiment by students at MIT showed that a mirror-based weapon was at least possible, if not necessarily practical. The hosts of MythBusters tackled the Mirrors of Archimedes three times (in episodes 19, 57 and 172) and were never able to make the target ship catch fire, declaring the myth busted three separate times.

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.

The fictional "engine-stopping ray"

Stories in the 1930s and World War Two gave rise to the idea of an "engine-stopping ray". They seemed to have arisen 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 needed for a test. Reversing the order of events in retelling the story created a "tale" where tourists car engine stopped first and then were 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. Such stories were circulating in Britain around 1938 and during the war British Intelligence relaunched the myth as a "British engine-stopping ray," trying to spoof the Germans into researching what the British had supposedly invented in an attempt to tie up German scientific resources.

German World War II experimental weapons

During the early 1940s Axis engineers developed a sonic cannon that could cause fatal vibrations in its target body. A methane gas combustion chamber leading to two parabolic dishes pulse-detonated at roughly 44 Hz. This sound, magnified by the dish reflectors, caused vertigo and nausea at 200–400 meters (220–440 yd) by vibrating the middle ear bones and shaking the cochlear fluid within the inner ear. At distances of 50–200 meters (160–660 ft), the sound waves could act on organ tissues and fluids by repeatedly compressing and releasing compressive resistant organs such as the kidneys, spleen, and liver. (It had little detectable effect on malleable organs such as the heart, stomach and intestines.) Lung tissue was affected at only the closest ranges as atmospheric air is highly compressible and only the blood rich alveoli resist compression. In practice, the weapon was highly vulnerable to enemy fire. Rifle, bazooka and mortar rounds easily deformed the parabolic reflectors, rendering the wave amplification ineffective.

In the later phases of World War II, Nazi Germany increasingly put its hopes on research into technologically revolutionary secret weapons, the Wunderwaffe.

Among the directed-energy weapons the Nazis investigated were X-ray beam weapons developed under Heinz Schmellenmeier, Richard Gans and Fritz Houtermans. They built an electron accelerator called Rheotron (invented by Max Steenbeck at Siemens-Schuckert in the 1930s, these were later called Betatrons by the Americans) to generate hard X-ray synchrotron beams for the Reichsluftfahrtministerium (RLM). The intent was to pre-ionize ignition in aircraft engines and hence serve as anti-aircraft DEW and bring planes down into the reach of the flak. The Rheotron was captured by the Americans in Burggrub on April 14, 1945.

Another approach was Ernst Schiebolds 'Röntgenkanone' developed from 1943 in Großostheim near Aschaffenburg. Richert Seifert & Co from Hamburg delivered parts.

Reported use in Sino-Soviet conflicts

The Central Intelligence Agency informed Secretary Henry Kissinger that it had twelve reports of Soviet forces using laser-based weapons against Chinese forces during the 1969 Sino-Soviet border clashes, though William Colby doubted that they had actually been employed.

Strategic Defense Initiative

In the 1980s, U.S. President Ronald Reagan proposed the Strategic Defense Initiative (SDI) program, which was nicknamed Star Wars. It suggested that lasers, perhaps space-based X-ray lasers, could destroy ICBMs in flight. Panel discussions on the role of high-power lasers in SDI took place at various laser conferences, during the 1980s, with the participation of noted physicists including Edward Teller.

Though the strategic missile defense concept has continued to the present under the Missile Defense Agency, most of the directed-energy weapon concepts were shelved. However, Boeing has been somewhat successful with the Boeing YAL-1 and Boeing NC-135, the first of which destroyed two missiles in February 2010. Funding has been cut to both of the programs.

Iraq War

During the Iraq War, electromagnetic weapons, including high power microwaves, were used by the U.S. military to disrupt and destroy Iraqi electronic systems and may have been used for crowd control. Types and magnitudes of exposure to electromagnetic fields are unknown.

Alleged tracking of Space Shuttle Challenger

The Soviet Union invested some effort in the development of ruby and carbon dioxide lasers as anti-ballistic missile systems, and later as a tracking and anti-satellite system. There are reports that the Terra-3 complex at Sary Shagan was used on several occasions to temporarily "blind" US spy satellites in the IR range.

It has been claimed (and proven false) that the USSR made use of the lasers at the Terra-3 site to target the Space Shuttle Challenger in 1984. At the time, the Soviet Union were concerned that the shuttle was being used as a reconnaissance platform. On 10 October 1984 (STS-41-G), the Terra-3 tracking laser was allegedly aimed at Challenger as it passed over the facility. Early reports claimed that this was responsible for causing "malfunctions on the space shuttle and distress to the crew", and that the United States filed a diplomatic protest about the incident. However, this story is comprehensively denied by the crew members of STS-41-G and knowledgeable members of the US intelligence community. After the end of the Cold War, the Terra-3 facility was found to be a low-power laser testing site with limited satellite tracking capabilities, which is now abandoned and partially disassembled.

Planetary defense

In the United States, the Directed Energy Solar Targeting of Asteroids and exploRation (DE-STAR) Project was considered for non-military use to protect Earth from asteroids.

Non-lethal weapons

The TECOM Technology Symposium in 1997 concluded on non-lethal weapons, "determining the target effects on personnel is the greatest challenge to the testing community", primarily because "the potential of injury and death severely limits human tests".

Also, "directed-energy weapons that target the central nervous system and cause neurophysiological disorders may violate the Certain Conventional Weapons Convention of 1980. Weapons that go beyond non-lethal intentions and cause 'superfluous injury or unnecessary suffering' may also violate the Protocol I to the Geneva Conventions of 1977."

Some common bio-effects of non-lethal electromagnetic weapons include:

Interference with breathing poses the most significant, potentially lethal results.

Light and repetitive visual signals can induce epileptic seizures. Vection and motion sickness can also occur.

Cruise ships are known to use sonic weapons (such as LRAD) to drive off pirates.

Russia has been reportedly using blinding laser weapons during its military intervention in Donbass.

Laser weapon

From Wikipedia, the free encyclopedia
 
The US-Israeli Tactical High Energy Laser (THEL) was used to shoot down rockets and artillery shells before being canceled in 2005 as a result of "its bulkiness, high costs and poor anticipated results on the battlefield.".

A laser weapon is a directed-energy weapon based on lasers. After decades of R&D, as of January 2020 directed-energy weapons including lasers are still at the experimental stage and it remains to be seen if or when they will be deployed as practical, high-performance military weapons. Atmospheric thermal blooming has been a major problem, still mostly unsolved and worsened if there is fog, smoke, dust, rain, snow, smog, foam, or purposely dispersed obscurant chemicals in the air. Essentially, a laser generates a beam of light which needs clear air, or a vacuum to work without thermal blooming. Laser and other directed-energy weapons have been a staple in science fiction since their inception however.

Many types of laser can potentially be used as incapacitating weapons, through their ability to produce temporary or permanent vision loss when aimed at the eyes. The degree, character, and duration of vision impairment caused by eye exposure to laser light varies with the power of the laser, the wavelength(s), the collimation of the beam, the exact orientation of the beam, and the duration of exposure. Lasers of even a fraction of a watt in power can produce immediate, permanent vision loss under certain conditions, making such lasers potential non-lethal but incapacitating weapons. The extreme handicap that laser-induced blindness represents makes the use of lasers even as non-lethal weapons morally controversial, and weapons designed to cause permanent blindness have been banned by the Protocol on Blinding Laser Weapons.

Weapons designed to cause temporary blindness, known as dazzlers, are used by military and sometimes law enforcement organizations. Incidents of pilots being exposed to lasers while flying have prompted aviation authorities to implement special procedures to deal with such hazards.

Laser weapons capable of directly damaging or destroying a target in combat are still in the experimental stage. The general idea of laser-beam weaponry is to hit a target with a train of brief pulses of light. The rapid evaporation and expansion of the surface causes shockwaves that damage the target. The power needed to project a high-powered laser beam of this kind is beyond the limit of current mobile power technology, thus favoring chemically powered gas dynamic lasers. Example experimental systems included MIRACL and the Tactical High Energy Laser, which are now discontinued.

The United States Navy has tested the very short range (1 mile), 30-kW Laser Weapon System or LaWS to be used against targets like small UAVs, rocket-propelled grenades, and visible motorboat or helicopter engines. It has been defined as "six welding lasers strapped together." A 60 kW system, HELIOS, is being developed for destroyer class ships as of 2020.

Overview

Laser-based directed-energy weapons are being developed, such as Boeing's Airborne Laser which was constructed inside a Boeing 747. Designated the YAL-1, it was intended to kill short- and intermediate-range ballistic missiles in their boost phase.

Another example of direct use of a laser as a defensive weapon was researched for the Strategic Defense Initiative (SDI, nicknamed "Star Wars"), and its successor programs. This project would use ground-based or space-based laser systems to destroy incoming intercontinental ballistic missiles (ICBMs). The practical problems of using and aiming these systems were many; particularly the problem of destroying ICBMs at the most opportune moment, the boost phase just after launch. This would involve directing a laser through a large distance in the atmosphere, which, due to optical scattering and refraction, would bend and distort the laser beam, complicating the aiming of the laser and reducing its efficiency.

Another idea from the SDI project was the nuclear-pumped X-ray laser. This was essentially an orbiting atomic bomb, surrounded by laser media in the form of glass rods; when the bomb exploded, the rods would be bombarded with highly-energetic gamma-ray photons, causing spontaneous and stimulated emission of X-ray photons in the atoms making up the rods. This would lead to optical amplification of the X-ray photons, producing an X-ray laser beam that would be minimally affected by atmospheric distortion and capable of destroying ICBMs in flight. The X-ray laser would be a strictly one-shot device, destroying itself on activation. Some initial tests of this concept were performed with underground nuclear testing; however, the results were not encouraging. Research into this approach to missile defense was discontinued after the SDI program was canceled.

Electrolaser

An electrolaser first ionizes its target path, and then sends an electric current down the conducting track of ionized plasma, somewhat like lightning. It functions as a giant, high-energy, long-distance version of the Taser or stun gun.

Pulsed energy projectile

Pulsed Energy Projectile or PEP systems emit an infrared laser pulse which creates rapidly expanding plasma at 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 as a non-lethal weapon in crowd control though it can also be used as a lethal weapon.

Dazzler

A dazzler is a directed-energy weapon intended to temporarily blind or disorient its target with intense directed radiation. Targets can include sensors or human vision. Dazzlers emit infrared or invisible light against various electronic sensors, and visible light against humans, when they are intended to cause no long-term damage to eyes. The emitters are usually lasers, making what is termed a laser dazzler. Most of the contemporary systems are man-portable, and operate in either the red (a laser diode) or green (a diode-pumped solid-state laser, DPSS) areas of the electromagnetic spectrum.

Initially developed for military use, non-military products are becoming available for use in law enforcement and security.

PHASR Rifle

The personnel halting and stimulation response rifle (PHASR) is a prototype non-lethal laser dazzler developed by the Air Force Research Laboratory's Directed Energy Directorate, U.S. Department of Defense. Its purpose is to temporarily disorient and blind a target. Blinding laser weapons have been tested in the past, but were banned under the 1995 United Nations Protocol on Blinding Laser Weapons, which the United States acceded to on 21 January 2009. The PHASR rifle, a low-intensity laser, is not prohibited under this regulation, as the blinding effect is intended to be temporary. It also uses a two-wavelength laser. The PHASR was tested at Kirtland Air Force Base, part of the Air Force Research Laboratory Directed Energy Directorate in New Mexico.

Examples

Leading Western companies in the development of laser weapons have been Boeing, Northrop Grumman, Lockheed Martin, Netherlands Organisation for Applied Scientific Research, Rheinmetall and MBDA.

List:

Boeing YAL-1. The laser system was mounted in a turret attached to the aircraft nose
The Beriev A-60 is still experimenting with the Sokol Eshelon laser as an intended anti-satellite weapon.

Most of these projects have been canceled, discontinued, never went beyond the prototype or experimental stage, or are only used in niche applications like dazzling, blinding, mine clearance or close defense against small, unprotected targets. Effective, high performance laser weapons seem to be difficult to achieve using current or near-future technology.

Problems

Laser beams begin to cause plasma breakdown in the atmosphere at energy densities of around one megajoule per cubic centimeter. This effect, called "blooming," causes the laser to defocus and disperse energy into the surrounding air. Blooming can be more severe if there is fog, smoke, dust, rain, snow, smog, or foam in the air.

Techniques that may reduce these effects include:

  • Spreading the beam across a large, curved mirror that focuses the power on the target, to keep energy density en route 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.
  • Using a phased array. For typical laser wavelengths, this method would require billions of micrometer-size antennae. There is currently no known way to implement these, though carbon nanotubes have been proposed. Phased arrays could theoretically also perform phase-conjugate amplification (see below). Phased arrays do not require mirrors or lenses, and can be made flat and thus do not require a turret-like system (as in "spread beam") to be aimed, though range will suffer if the target is at extreme angles to the surface of the phased array.
  • Using a phase-conjugate laser system. This method employs a "finder" or "guide" laser illuminating the target. Any mirror-like ("specular") points on the target reflect light that is sensed by the weapon's primary amplifier. The weapon then amplifies inverted waves, in a positive feedback loop, destroying the target, with shockwaves as the specular regions evaporate. This avoids blooming because the waves from the target pass 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, however, the mirror overheats dramatically at weapon-useful power levels.
  • Using a very short pulse that finishes before blooming interferes, but this requires a very high power laser to concentrate large amounts of energy in that pulse which doesn't exist in a weaponized or easily weaponizable form.
  • Focusing multiple lasers of relatively low power on a single target. This is increasingly bulky as the total power of the system increases.

Countermeasures

Essentially, laser generates a beam of light which will be delayed or stopped by any opaque medium and perturbed by any translucent or less than perfectly transparent medium just like any other type of light. A simple, dense smoke screen can and will often block a laser beam. Infrared or multi-spectrum smoke grenades or generators will also disturb or block infrared laser beams. Any opaque case, cowling, bodywork, fuselage, hull, wall, shield or armor will absorb at least the "first impact" of a laser weapon, so the beam must be sustained to achieve penetration.

The Chinese People's Liberation Army has invested in the development of specialized coatings that can deflect beams fired by U.S. military lasers. Laser light can be deflected, reflected, or absorbed by manipulating physical and chemical properties of materials. Artificial coatings can counter certain specific types of lasers, but a different type of laser may match the coating's absorption spectrum enough to transfer damaging amounts of energy. The coatings are made of several different substances, including low-cost metals, rare earths, carbon fiber, silver, and diamonds that have been processed to fine sheens and tailored against specific laser weapons. China is developing anti-laser defenses because protection against them is considered far cheaper than creating competing laser weapons.

Dielectric mirrors, inexpensive ablative coatings, thermal transport delay, and obscurants are also being studied as countermeasures. In not a few operational situations, even simple, passive countermeasures like rapid rotation (which spreads the heat and does not allow a fixed targeting point except in strictly frontal engagements), higher acceleration (which increases the distance and changes the angle quickly), or agile maneuvering during the terminal attack phase (which hampers the ability to target a vulnerable point, forces a constant re-aiming or tracking with close to zero lag, and allows for some cooling) can defeat or help to defeat non-highly pulsed, high-energy laser weapons.

In popular culture

Arthur C. Clarke envisaged particle beam weapons in his 1955 novel Earthlight, in which energy would be delivered by high-velocity beams of matter. After the invention of the laser in 1960, it briefly became the death ray of choice for science fiction writers. By the late 1960s and 1970s, as the laser's limits as a weapon became evident, the ray gun began to be replaced by similar weapons with names that better reflected the destructive capabilities of the device (like the blasters in Star Wars or the phasers in Star Trek, which were originally lasers: according to The Making of Star Trek, Gene Roddenberry claimed that production staff realized that using laser technology would cause problems in the future as people came to understand what lasers could and could not do; this resulted in the move to phasers on-screen, while letting lasers be known as a more primitive weapon style.)

In the Warhammer 40,000 franchise, a faction known as the Astra Militarum, formerly called the Imperial Guard, uses a wide variety of laser weapons. The "lasgun" or "lasrifle" is their main infantry weapon and is used in the same manner as a modern-day assault rifle. Lasguns are presented as cheap, easy to mass-produce and reliable, albeit not very effective against heavily armoured targets unless fielded in large numbers. The Astra Militarum also make extensive use of laser technology in the forms of sidearms (laspistols, hellpistols/hot-shot laspistols), special weapons used primarily by special forces or elite units (Hellgun/Hot-shot Lasgun, Hotshot Volley Gun), sniper weapons (Long-Las), heavy weapons (lascannon, multi-laser, laser destroyer, magma cannon, volcano cannon) or weapons used in planetary defense systems for planetary defense such as anti-voidship defence lasers. The Aeldari, formerly the Eldar, have a special unit called the Swooping Hawks equipped with "lasblasters" and their laser weapons are typically more refined, accurate, and energy-efficient. Orks also make use of laser weapons, usually scavenged or looted laser weapons from other races that have been "orkified" for more power, but at the cost of reliability.

In the Command & Conquer video game series, various factions make extensive use of laser and particle beam technology.

Space warfare in fiction

From Wikipedia, the free encyclopedia

Space warfare has served as a central theme within the science-fiction genre. One can trace its roots back to classical times, and to the "future war" novels of the nineteenth century. An interplanetary, or more often an interstellar or intergalactic war, has become a staple plot device in space operas. Space warfare has a predominant role in military science fiction.

Technology

Weapons

Usually, lasers are used rather than bullets. Willy Ley claimed in 1939 that bullets would be a more effective weapon in a real space battle.

Destruction of planets and stars

Destruction of planets and stars has been a frequently used aspect of interstellar warfare since the Lensman series. It has been calculated that a force on the order of 1032 joules of energy, or roughly the total output of the sun in a week, would be required to overcome the gravity that holds together an Earth-sized planet. The destruction of Alderaan in Star Wars: Episode IV - A New Hope is estimated to require 1.0 × 1038 joules of energy, millions of times more than would be necessary to break the planet apart at a slower rate.

Naval influences

Fictional space warfare tends to borrow elements from naval warfare, often calling space forces as space navies or simply navies. David Weber's Honorverse series of novels portrays several of such space navies such as the Royal Manticoran Navy, which imitate themes from Napoleonic-era naval warfare. The Federation Starfleet (Star Trek), Imperial Navy (Star Wars), Systems Alliance Navy (Mass Effect), UNSC ("Halo") and Earthforce (Babylon 5) also use a naval-style rank-structure and hierarchy. The former is based on the United States Navy and the Royal Navy. The United Nations Space Command in Halo fully echoes all ranks of the United States Armed Forces, even the pay-grade system. Naval ship-classes such as frigate or destroyer sometimes serve as marker to show how the craft are assembled and their designed purpose.

Some fictional universes have different implementations. The Colonial Fleet in Battlestar Galactica uses a mixture of army and navy ranks, and the Stargate universe has military spacecraft under the control of modern air forces, and uses air-force ranks. In the Halo universe, many of the ranks of the current-day United States Military are used in lieu of fictional ranks. In the Andromeda universe, officers of Systems Commonwealth ships follow naval ranking, but Lancers (soldiers analogous to Marines) use army ranks.

Literature

Lucian

In his second-century satire True History, Lucian of Samosata depicts an imperial war between the king of the Sun and the king of the Moon over the right to colonise the Morning Star. It is the earliest known work of fiction to address the concept.

Future war: the precursor to space warfare

The first "future war" story was George T. Chesney's "The Battle of Dorking," a story about a British defeat after a German invasion of Britain, published in 1871 in Blackwood's Magazine. Many such stories were written prior to the outbreak of World War I. George Griffith's The Angel of the Revolution (1892) featured self-styled "Terrorists" armed with then-nonexistent arms and armour such as airships, submarines, and high explosives. The inclusion of yet-nonexistent technology became a standard part of the genre. Griffith's last "future war" story was The Lord of Labour, written in 1906 and published in 1911, which included such technology as disintegrator rays and missiles.

H. G. Wells' novel The War of the Worlds inspired many other writers to write stories of alien incursions and wars between Earth and other planets, and encouraged writers of "future war" fiction to employ wider settings than had been available for "naturalistic" fiction. Wells' several other "future war" stories included the atomic war novel The World Set Free (1914) and "The Land Ironclads," which featured a prophetic description of the tank, albeit of an unfeasibly large scale.

Space opera

The modern form of space warfare in science fiction, in which mobile spaceships battle both planets and one another with destructive superweapons, appeared with the advent of space opera. Garrett P. Serviss' 1898 newspaper serial "Edison's Conquest of Mars" was inspired by Wells and intended as a sequel to "Fighters from Mars," an un-authorized and heavily altered Edisonade version of The War of the Worlds in which the human race, led by Thomas Edison, pursues the invading Martians back to their home planet. David Pringle considers Serviss' story to be the very first space opera, although the work most widely regarded as the first space opera is E. E. "Doc" Smith's The Skylark of Space. It and its three successor novels exemplify the present form of space warfare in science fiction, as giant spaceships employ great ray guns that send bolts of energy across space to shatter planets in a war between humans and alien species.

David Weber's Honorverse novels present a view of space warfare that simply transplants the naval warfare of Horatio Nelson and Horatio Hornblower into space. The space navy battle tactics in the Honorverse are much like those of Nelson, with the simple addition of a third dimension.

Late 20th century depictions

More recent depictions of space warfare departed from the jingoism of the pulp science fiction of the 1930s and 1940s. Joe Haldeman's The Forever War, was partly a response to or a rebuttal of Robert A. Heinlein's Starship Troopers, wherein space warfare involved the effects of time dilation and resulted in the alienation of the protagonists from the human civilization on whose behalf they were fighting. Both novels have in the past been required reading at the United States Military Academy.

Science fiction writers from the end of World War II onwards have examined the morality and consequences of space warfare. With Heinlein's Starship Troopers are A. E. van Vogt's "War against the Rull" (1959) and Fredric Brown's "Arena" (1944). Opposing them are Murray Leinster's "First Contact" (1945), Barry Longyear's "Enemy Mine," Kim Stanley Robinson's "The Lucky Strike," Connie Willis' "Schwarzchild Radius," and John Kessel's "Invaders." In Orson Scott Card's Ender's Game, the protagonist wages war remotely, with no realization that he is doing so.

Several writers in the 1980s were accused of writing fiction as part of a propaganda campaign in favour of the Strategic Defense Initiative. Ben Bova's 1985 novel Privateers has been given as an example.

Television and film

Early television productions such as Captain Video and His Video Rangers (1949) were severely constrained by the available special effects technology, and effect sequences were typically difficult to set up. This, combined with the fact that early shows were often live productions, meant that space action sequences were usually short and simple.

Production techniques improved throughout the 1950s and 1960s, and most programming moved to pre-recorded productions. This allowed more complex effects to be used, and increased the ability of producers to show action sequences such as space warfare. Star Trek is from this period. While the future presented in the original Star Trek series was not one of open warfare, the machinery of war was ever present, and was used in many episodes. Ships carried missiles armed with antimatter warheads, known as "photon torpedoes", and deflector shields for defense. Battles were shown on screen, but the expense and difficulty of advanced special effects meant that most battles were short and involved few craft. The costs of special effects dropped dramatically over the years, but remained high enough that larger battles showed relatively few ships firing and/or being hit. Star Trek: Deep Space Nine (1993) used computer graphics developed in part by Industrial Light & Magic, and could show battles between numerous classes of ships using tactics developed by military strategists.

George Lucas' 1977 film Star Wars broke new ground in its depiction of space warfare. Advances in technology, combined with the film's comparatively high budget, allowed Lucas to create long, complex space action sequences. The battle sequences were modeled after World War II-era tactics from films such as The Dam Busters, and were a major milestone in fictional space combat.

A number of more ambitious films and television series soon followed, including ABC's Battlestar Galactica (1978). Battlestar Galactica used expensive effects influenced by those of Lucas' film and followed his lead in concentrating on battles between starfighters. It, and contemporary shows such as Buck Rogers in the 25th Century, set new standards in television space battles. The series primarily used laser-type energy weapons in defense and offence on battleships, although analogues to ballistic weaponry are present in several episodes. The 2003 "re-imagining" of Battlestar Galactica uses more conventional weaponry, such as guns and missiles mounted on the primary capital ships and starfighters, and use pure Newtonian physics to achieve a more realistic representation of how space warfare would actually appear.

In 1979 Mobile Suit Gundam was released in Japan. The series was famous for revolutionizing the giant robot genre due to the handling of mobile suits as weapons of war as well as the portrayal of their pilots as ordinary soldiers, as opposed to the previous style of portraying hero pilots.

James Cameron's Aliens, the 1986 sequel to the 1979 film Alien, used Starship Troopers as the basis for its military. The movie involves a small unit of the United States Colonial Marine Corps who provide emergency response to a planetary colony in 2179. The film showed futuristic twists on many modern types of military vehicle and gear, including a dropship, 10x25mm caseless "Pulse" M41A1 rifles, flamethrowers and machine guns, and realistic body armor and tactical equipment.

The 1993 television series Babylon 5 chronicled a turbulent time in galactic politics, which involved several inter-species wars. Political and humanitarian aspects were explored, such as atrocities against civilian populations, and telepathy was used as a weapon. The series made an attempt to faithfully depict the physics of combat in a vacuum, instead of using motion modelled on aeroplanes within our atmosphere.

The 1995 American TV series Space: Above and Beyond centered around the "Wildcards", a group of marines in the 2060s who serve as both infantry and fighter pilots. The show attempted to depict technology that was near-future, but based on research. It also explored the alienation of deep space warfare, the horrors of loss and survival on the battefield, the bonds that form in combat, and a fight against an enemy of which they knew little. Space: Above and Beyond differs from many other military science fiction works in that its soldiers use weapons that fire bullets, and fight in space suits in alien environments.

The British TV series Doctor Who, has numerous instances of this. Frontier in Space, set in 2540, mentions a war between Earth and Draconia, fought 20 years earlier. This story involves renegade Time Lord the Master trying to start another war on behalf of the Daleks, who plan to conquer the Galaxy. The Time War is a major plot point in the revived series, during which the Time Lords, the species of the Doctor, fought the Daleks. This war seems to have ended with the destruction of the Time Lord planet Gallifrey, which the Doctor did hoping the Daleks would also be destroyed.

Introduction to entropy

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