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stealth bomber of the U.S Air Force .]] A stealth aircraft is an Aircraft that uses Stealth Technology to make it harder to detect by radar and other means than conventional aircraft. Stealth aircraft were most notably used during the Gulf War . BENEFITS OF STEALTH AIRCRAFT DESIGNS A smaller number of stealth aircraft may replace a large fleet of conventional aircraft while maintaining or increasing combat efficiency, possibly resulting in longer term savings in the military budget. A stealth aircraft strike capability may deter potential opponents from taking action and keep them in constant fear of unopposed airstrikes, since they can never know if planes are already underway, or what they might strike next. This may make an opponent more willing to accept a diplomatic solution, although the moral reasoning behind this is disputed. Stealth aircraft allow raids on important point targets to occur, while maintaining a cover of Plausible Denial . Since the approach and departure routes would likely remain unknown, a stealth operator could simply refuse to comment and hope to avoid war. The production and fielding of a stealth combat aircraft design may force an opponent to pursue the same aim, possibly resulting in significant weakening of the economically inferior party. The 1980s American Strategic Defense Initiative ("Star Wars") program served a similar purpose against the USSR . DRAWBACKS OF STEALTH AIRCRAFT DESIGNS of the U.S. Air Force . The F-117 was the first operational stealth aircraft, and is set to be retired between 2006 and 2008.]] Instability of Design Stealth aircraft are designed with a focus on minimal Radar Cross Section (RCS) rather than aerodynamic perfection. Highly stealth aircraft (the F-117 and B-2) are aerodynamically unstable on all three axes and require constant flight corrections from the Fly-by-wire system to stay airborne. Most modern non-stealth fighter aircraft ( F-16 , Su-27 , Eurofighter Typhoon , Gripen , Rafale ) are unstable on one or two axes only. Stealth aircraft need to have highly redundant fly-by-wire systems for safety, which adds extra cost and weight to the design. In case of a strong Electromagnetic Pulse (e.g. atmospheric nuclear explosion), loss of flight control computers would affect stealth aircraft more seriously, possibly causing them to crash, but this is highly unlikely due to Electronic Hardening that is implemented by the United States Air Force . Dogfighting Ability Stealth aircraft are seriously handicapped in combat once located by the enemy. Existing fully stealth designs (namely the F-117 and B-2) lack Afterburner s, whose hot exhaust would increase the RCS and infrared footprint of the plane. Stealth aircraft are thus unable to exceed the Speed Of Sound and flee rapidly. This makes them vulnerable to fighter interceptors, which can reach Mach 2 or higher speeds using afterburners. The peculiar shape of stealth aircraft reduces their agility in a Dogfight , thus they may be destroyed by Auto-cannon fire from a traditional jet-fighter, even if their low RCS and effective infrared shielding prevents a successful missile lock. While the F-117 can carry two air-to-air missiles for self-defense, they aren't typically very effective, a consequence of the low maneuverability. The B-2, meanwhile, cannot carry any form of air-to-air weapon. Electromagnetic Emissions The high level of computerization and large amount of electronic equipment found inside stealth aircraft makes them vulnerable to passive detection. The Czech-developed, field-mobile Tamara system snoops on very weak electromagnetic "leaks" emanating even from the most shielded aircraft. Tamara detectors provide general range / distance information to active air defense radars, which would then lock onto targets using highly focused scanning. Cost of Maintenance Stealth aircraft are high-maintenance equipment. The condition of the aircraft's skin determines stealth efficiency, either by diverting radar impulses due to specific geometry of the airframe and/or absorbing electromagnetic waves in a graphite-ferrite microspheres based surface paint layer. The cockpit windows are shielded with delicate gold and indium foil layers. If the plane's skin is punctured by a pebble thrown from the runway or heavy rain damages the paint layers, the RCS could be dramatically increased. Stealth planes are preferably operated from homeland bases, where air conditioned shelters provide optimal maintenance and storage conditions. Although airframe maintainability and availability progressed dramatically during the late 1990s, the cost of aircraft procurement, establishment of high- standard home base facilities, and the complex, long range sorties conducted from the homeland against overseas targets still places a serious economic burden on stealth aircraft operators. Vulnerable Modes of Flight Stealth aircraft are still vulnerable to detection immediately before, while-and after using their weaponry. Since stealth payload (reduced RCS bombs and cruise missiles) are not yet generally available, all armament must be carried internally to avoid increasing the radar cross section. As soon as the bomb bay doors are opened, the plane's RCS will be multiplied and even older generation radar systems will be able to locate them. Stealth aircraft pilots receive special training to minimize weapon dispatch intervals to 15-25 seconds. In case of 4th and 5th generation "reduced RCS" (semi-stealth) fighter-bomber designs, air-to-ground armament is mainly carried on external pylons, accepting the higher risk of detection. The internal weapon bays are reserved for various anti-aircraft missiles. Limited Payload Since fully stealth aircraft carry all armament internally, the available military payload is limited. The F-117 carried only two laser-guided bombs onboard, requiring highly reliable intelligence for a successful attack. Outside the scope of traditional war, it may be desirable to inject Special Forces troops on the ground, who would infiltrate the enemy territory and identify / illuminate the high-value point target for a successful laser-guided bomb raid by stealth aircraft. The B-2 Spirit carries a large bomb load, but it has relatively slow (transonic) speed, resulting in 18 to 24 hour long missions when it flies half-way around the globe to attack overseas targets. Therefore advance planning and receiving intelligence in a timely manner is of paramount importance for a successful sortie. In case mobile targets will be attacked, the Spirit will need to rely on satellite data or forward placed observers to guarantee a successful engagement. Peacetime Concerns Stealth aircraft may pose an air traffic hazard if flying outside of restricted training airspaces without an operating transponder. Cost Stealth aircraft have a limited operational envelope. While the B-2 Spirit can put , making its deployment dependent on weather and time of day. Long range missions and the avoidance of radar facilities make its approach and departure vectors more predictable. While the aircraft may be stealthy, the ordnance delivered will more than adequately advertise its existence. HOW STEALTH AIRCRAFT COULD POTENTIALLY BE DETECTED Theoretically there are a number of methods to detect stealth aircraft at long range but none has been proven to work. Companies that have claimed to develop such systems have been unable to test their products on real stealth planes. Wing Vortexes Both Australia and Russia have announced that they have developed processing techniques that allow them to detect the Turbulence of aircraft at reasonably long ranges (possibly negating the stealth technology). Reflected Waves Passive (multistatic) Radar , Bistatic Radar and especially Multistatic systems are believed to detect stealth aircraft better than conventional Monostatic Radar s, since stealth technology reflects energy away from the transmitter's Line Of Sight , effectively increasing the Radar Cross Section (RCS) in other directions, which the passive radars monitor. Such a system could use either low frequency broadcast TV and FM radio signals ( these low frequency signals might cause parts of the aircraft to resonate increasing the RCS ) or Cellular Telephone . Researchers at the announced an experimental system that uses the signals broadcast from Cellular Telephone towers to track aircraft. Electromagnetic Emissions Stealth aircraft could be passively detected from their electromagnetic emissions ( such as Terrain-following Radar , Radio Communications or missile guidance communications etc.). Stealth aircraft typically attempt to minimize these emissions by using Low Probability Of Intercept radars, Satellite Communications etc and careful tactics. The Czech -developed, field-mobile Tamara system snoops on very weak electromagnetic "leaks" emanating from the large amount of electronic equipment inside all modern combat aircraft. Visible Light To this date, the only systems that have been shown to successfully detect stealth aircraft are very old, and use long wave radar systems that have a low resolution. The shooting down of an F-117 over Yugoslavia in the 1999 Kosovo conflict Operation Allied Force , was due to the use of an "electro-optical" (TV) tracking system after the aircraft was detected by the vortices produced by the poor aerodynamic shape of stealth aircraft. The aircraft may be hard to detect using radar, but it is still visible to the naked eye. Wavelength Match An F-117 was also detected by a British ship during the first Gulf War, in this case because the wavelength of the radar was twice the length of the aircraft. This caused the entire aircraft to act as a dipole, leading to a very strong radar return. The Dutch company Thales Nederland , the formerly known as Holland Signaal , have claimed to have developed a Stealth detection radar called SMART-L . So far the company has been unable to test it on a Stealth vehicle. USE OF STEALTH AIRCRAFT F-22 Raptor stealth fighter of the 27th Fighter Squadron .]] To date, stealth aircraft have been used in several low- and moderate-intensity conflicts, including Operation Desert Storm , Operation Allied Force and the 2003 Invasion Of Iraq . In each case they were employed to strike high-value targets which were either out of range of conventional aircraft in the theater or which were too heavily defended for conventional aircraft to strike without a high risk of loss. In addition, because the stealth aircraft do not have to be dodging Surface-to-air Missile s and Anti-aircraft Artillery over the target they can aim more carefully and thus are more likely to hit the target and not cause as much Collateral Damage . In many cases they were used to hit the high value targets early in the campaign (or even before it), before other aircraft had the opportunity to degrade the opposing air defense to the point where other aircraft had a good chance of reaching those critical targets. Stealth aircraft in future low- and moderate-intensity conflicts are likely to have similar roles. However, given the increasing prevalence of excellent Russia n-built Surface-to-air Missile systems on the open market (such as the SA-10 , SA-12 and SA-20 (S-300P/V/PMU) and SA-15 (9K331/332)), stealth aircraft are likely to be very important in a high-intensity conflict in order to gain and maintain air supremacy, especially to the United States who is likely to face these types of systems. It is possible to cover one's airspace with so many air defences with such long range and capability that conventional aircraft would find it very difficult "clearing the way" for deeper strikes. For example, China license-builds all of the previously mentioned SAM systems in quantity and would be able to heavily defend important strategic and tactical targets in the event of some kind of conflict. Even if Anti-radiation weapons are used in an attempt to destroy the SAM radars of such systems, or stand-off weapons are launched against them, these modern surface-to-air missile batteries are capable of shooting down weapons fired against them. The surprise of a stealth attack, and the ability to penetrate the air defences and survive, may become the only reasonable way of making a safe corridor through which conventional bombers and other aircraft can enter the enemy's airspace. LIST OF STEALTH AIRCRAFT Manned Fully stealth designs ;In service
;To be introduced
;Technology demonstrator
;Cancelled
Reduced RCS designs ;In service/Former service
;Technology demonstrator
;Cancelled
Unmanned (full stealth)
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