Shopping on line can be easy, simple and save you lots of money. It can also take a lot of your time, frustrate you, and result in unwanted purchases. Now the same can be said for regular high street shopping, but with the vast opportunity presented by the Internet it will pay you to spend a few minutes reading this and understanding how to better optimize your Fighter Aircraft shopping experience:

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2. Research - if it has been said it will be on the internet. Ignorance is no longer a justifiable reason for buying the wrong thing. Take the time to research in detail everything that you could possible want to know about

3. Testimonials - don't know anybody that has bought a Fighter Aircraft? Wrong! If the Fighter Aircraft is good the internet will let you know. Use the Internet as a friend and get testimonials before you buy.

4. Questions - Got a question about Fighter Aircraft then search the Forums, FAQ's, Blogs etc. Don't be afraid to ask .....

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6. Returns - still worried that even after all of the above your Fighter Aircraft wont be what you want? Check out the returns policy. There is so much competition now that someone, somewhere is bound to offer the terms that you are comfortable with.

7. Feedback - happy with your Fighter Aircraft then let people know, after all you are depending on others people input in your buying decision, so why not give a little back.

8. Security - check for the yellow padlock on the Fighter Aircraft site before you buy, and the s after http:/ /i.e. https:// = a secure site

9. Contact - got a question about Fighter Aircraft, or want to leave a comment then check out the sites contact page. Reputable companies have them and respond.

10. Payment - ready to pay for your Fighter Aircraft, then use your credit card or PayPal! Be aware of companies that don't accept them, there may be genuine reasons but given the huge amount of choice you have when buying online there is no reason at all not to buy via credit card or PayPal.



, F-86 Sabre, P-38 Lightning and P-51 Mustang fly in formation during an air show at Langley Air Force Base, Virginia. The formation displays two generations of Air Force fighter aircraft, and an ground attack aircraft (the A-10).A fighter aircraft is a military aircraft designed primarily for attacking other aircraft, as opposed to a bomber, which is designed to attack ground targets, primarily by dropping bombs. Fighters are comparatively small, fast, and maneuverable. Fighter aircraft are the primary means by which armed forces gain air superiority. At least since World War II, air superiority has been a crucial component of victory in most modern warfare, particularly "conventional" warfare between regular armies(as opposed to Guerrilla warfare), and their acquisition and maintenance represent a very substantial proportion of military budgets in militaries that maintain modern fighter forces.

Introduction The word “fighter” did not become the official British term for a single seat fighter until after the First World War. In the RFC/RAF such aircraft continued to be called “scouts” into the early nineteen twenties. The French, Italians and Germans used (and still use) terms that literally mean “hunter”, while in Russian the fighter is called "истребитель" which is literally "exterminator". The Americans, perhaps originally due to a mistranslation of the French word “chasseur” called their fighters “pursuit” aircraft until the late nineteen forties.

By whatever name they are KNOWN, fighters were developed in response to the fledgling use of aircraft and airship in World War I for reconnaissance and ground attack roles.

As aerial warfare became increasingly important, so did control of the airspace. By World War II, fighters were predominantly all-metal monoplanes with wing-mounted batteries of cannons or heavy machine guns. By the end of the war, turbojets were already beginning to replace piston engines as the means of propulsion, and missiles to augment or replace guns.

For historical purposes, jet fighters are classified by generation. The generation terminology was initiated by Russian defense parlance in referring to the F-35 Lightning II as a "fifth-generation" plane. Years are not exact and intended as a guideline.

Modern jet fighters are predominantly powered by one or two turbofan engines, armed primarily with missiles (from as few as two on some lightweight day fighters to as many as eight to ten on air superiority fighters like the Su-27 Flanker or F-15 Eagle), with a cannon as backup armament (typically between 20 and 30mm in calibre), and equipped with a radar as the primary method of target acquisition.

Prop-powered fighters World War I biplane at the Imperial War Museum in LondonThe word “fighter” was first used to describe a two seater aircraft, with sufficient lift to carry a machine gun and its operator as well as the pilot. The first such “fighters” belonged to the “gunbus” series of experimental gun carriers of the Vickers company which culminated in the Vickers F.B.5 of 1914. The main drawback of this type of aircraft was its lack of speed. It was quickly realised that an aircraft intended to destroy its kind in the air needed at least to be fast enough to catch its quarry.

Fortunately another type of military aircraft already existed, which was to form the basis for an effective "fighter" in the modern sense of the word. It was based on the small fast aircraft developed before the war for such air races as the Gordon Bennett and Schneider trophies. The military scout aeroplane was not initially expected to be able to carry serious armament, but to rely on its speed to be able to reach the location it was required to “scout” or reconnoitre and return quickly to report – all the time making a difficult target for Anti-aircraft warfare or enemy gun-carrying aircraft. British “scout” aircraft in this sense included the Sopwith Tabloid and Bristol Scout – French equivalents included the light, fast Morane-Saulnier N.

In practice, after the actual commencement of the war the pilots of small scout aircraft armed themselves with pistols, carbines and an assortment of improvised weapons with which to attack enemy aircraft – proving to be as successful in their efforts as specifically designed “fighter” aircraft.

It was inevitable that sooner or later means of effectively arming “scouts” would be devised. One method was to build a Pusher configuration scout such as the Airco DH.2, with the propeller behind the pilot. The main drawback was that the high drag of a pusher type's tail structure meant that it was bound to be slower than an otherwise similar Tractor configuration aircraft. The other was to mount the machine gun armament outside the arc of the propeller. Given the tendency of early machine guns to jam (and hence the need for the pilot to have access to the gun’s breech) as well as determining the aiming point, this was a stopgap solution at best. Despite this mounting a machine gun to fire over the propeller arc was to remain in service from 1915 on the Nieuport 11 until 1918 on the Royal Aircraft Factory S.E.5 with its purpose built Foster mounting.

So clear was the need to arm a tractor scout with a forward firing gun whose bullets actually passed through the propeller arc that inventors were busy trying various methods in both France and Germany.Hanz Schneider had patented a device before the war to interrupt the machine gun's stream of bullets (by preventing it from firing when the propellor's blade was in the way) before the war and Anthony Fokker developed this into the Interrupter gear that would make the Fokker Eindecker such a feared name over the Western Front despite it being an adaptation of an obsolete pre-war French Morane-Saulnier racing monoplane. Simultaneously, Roland Garros (the first French 'ace') was also working on a synchronizer, which attempted to time the firing of the individual rounds similarly when the propellor wasn't in the way. Unfortunately his choice of machine gun was poor - the gas operated Hotchkiss wasn't predictable enough to be able to time the firing and as a desperation measure he fitted metal wedges to protect the propellor's blades. At the same time the RNAS was taping up the blades on its scouts so that any rounds that damaged the prop wouldn't cause it to fail before the aircraft could be landed, with the fabric from the tape hopefully holding the blade together.

The success of the Eindecker started a cycle of improvement among the combatants, building ever more efficient single seat fighters. The Albatros D.I of late 1916 set the classic pattern followed by almost all such aircraft for about twenty years. Like the D.I, they were biplanes (only very occasionally monoplanes, or triplanes). The strong box structure of the biplane wing allowed for a rigid wing that afforded accurate lateral control, essential for fighter-type maneuvers. They had a single crew member, who flew the aircraft and also operated its armament. They were armed with two synchronised Maxim gun-type machine guns, which were much easier to synchronise than other types – firing through the propeller arc. The gun breeches were typically right in front of the pilot’s face. This had obvious implications in case of accidents, but enabled jams (to which Maxim-type machine guns always remained liable) to be cleared in flight and made aiming them much easier.

replica at the Berlin Air Show, the "Red Baron" triplaneNotable aircraft:(with year of introduction)

1919-1938 P-26 Peashooter which first flew in 1932Fighter development slowed between the wars, the most significant change coming late in the period, when the classic WWI type machines started to give way to metal monocoque or semi-monocoque monoplanes, with cantilever wing structures. Gun synchronisation became less and less important, as increasingly heavy armament tended to be mounted in the wings, outside the arc of the propeller.

Some air forces dabbled with "heavy fighters" (called "destroyers" by the Germans). These were larger aircraft, sometimes adaptations of light bomber or medium bomber types, and usually with two engines. The idea did not take hold except for some specialized applications requiring a heavier payload. In particular, heavy fighters were no match for normal fighters in combat.

The primary driver of fighter innovation, right up to the period of rapid rearmament in the late thirties, were not military budgets, but civilian aircraft races. Aircraft designed for these races pioneered innovations like streamlining and more powerful engines that would find their way into the fighters of World War II.

Notable aircraft:

World War II PZL P.11c from the Eagle Owls squadron. On 1 September 1939, Flight Lieutenant Hieronim Dudwał, flying this plane, shot down a German He 111 over Warsaw.Aerial combat formed an important part of World War II military doctrine. The ability of aircraft to locate, harass, and interdict ground forces was an instrumental part of the German combined-arms doctrine, and their inability to seize air superiority over Britain rendered an invasion infeasible. Erwin Rommel noted the effect of airpower: "Anyone who has to fight, even with the most modern weapons, against an enemy in complete command of the air, fights like a savage against modern European troops, under the same handicaps and with the same chances of success."

Fighter aircraft of WWII introduced rockets as well as the first jet engine- powered designs. Piston-engined fighters continued to be refined and developed with increasing performance and capabilities, up until the advent of jet aircraft such as the Messerschmitt Me 262 and Gloster Meteor. Many of these fighters could do over 400 mph (600 km/h) in level flight, and were fast enough in a dive that they started encountering the transonic buffeting experienced near the speed of sound, occasionally breaking up in flight due to the heavy load placed on an aircraft near the so-called "sound barrier". Dive brakes were developed late in World War II to minimise these problems and restore control to pilots.

Radar, invented shortly prior to World War II, was fitted to some fighters, such as the Messerschmitt Bf 110, F6F Hellcat and Northrop P-61 Black Widow to enable them to locate targets at night. Another innovation of this period was the strike fighter. Short on bombers, Marines in the Pacific Ocean theater of World War II bolted bomb racks on to their F4U Corsairs. This proved a versatile concept, as the fighters were able to fight enemy fighters once they had relieved themselves of their bombload. The F6F Hellcat was also used in similar fashion in late 1944 and 1945.

Notable aircraft:

Jet-powered fighters First-generation jet fighters (1944-1953) The first generation represents the first attempts at using turbojets for propulsion, providing greatly increased speed (the efficiency of piston-driven propellers drops off considerably at transsonic speeds). Many of these early jets resembled their piston-driven counterparts in several ways. Many were straight-winged aircraft armed primarily with cannon; radar was not yet in common usage except on specialized night fighters.

The first jets were developed during World War II and saw combat in its last year. Messerschmitt developed the first operational jet fighter, the Messerschmitt Me 262. It was considerably faster than piston-driven aircraft, and in the hands of a competent pilot, was practically untouchable. Due to German fuel shortages, however, it saw little use. Nevertheless the plane indicated the obsolescence of piston-driven aircraft. Spurred by reports of the German jets, Britain's Gloster Meteor entered production soon after and the two entered service around the same time in 1944. By the end of the war almost all work on piston powered fighters had ended. Mixed-propulsion designs such as the Ryan FR Fireball saw brief use, but by the end of the 1940s virtually all new combat aircraft were jet-powered.

Despite the advantages, the early jet fighters were far from perfect, particularly in the opening years of the generation. Their operational lifespans could be measured primarily in hours; the engines themselves were fragile and bulky, and power could be adjusted only slowly. Innovations such as swept wings, ejector seats, and all-moving tailplanes were introduced in this period.

Notable aircraft:

Second generation (1953-1960) . This was the first American service aircraft to break the sound barrier in level flight. fighterThe second generation describes the integration of many new technologies to greatly improve the fighting capability of the jet fighter. The introduction of guided missiles such as the AIM-9 Sidewinder and AIM-7 Sparrow moved combat to beyond visual range (though it often devolved into dogfights in visual range), necessitating the standardization of radar to acquire targets. Designers experimented with a variety of aeronautics innovations, such as the swept wing, delta wing, variable-geometry wings, and area ruled fuselages. With the aid of swept wing, these were the first production aircraft to break the sound barrier.

The primary specializations of this era were the fighter-bomber (such as the F-105 and the Sukhoi Su-7), and the Interceptor aircraft (English Electric Lightning and F-104 Starfighter). The interceptor was an outgrowth of the vision that guided missiles would completely replace guns and combat would take place at beyond visual range. As a result, interceptors were designed with a large missile payload and a powerful radar, sacrificing agility in favor of speed and rate of climb.

Notable aircraft:

Third generation (1960-1970) The third generation is marked by maturity in the innovations introduced in the first generation. As this aeronautical development approached maturity, growth in combat capability grew via the introduction of improved missiles, radar, and other avionics. Most significantly, as a result of combat experience with guided missiles, designers conceded that combat could and would degenerate into close dogfights. Guns again became standard, and maneuverability was once again a priority.

These innovations, while greatly improving the capabilities of fighters (the F-4 could carry a payload greater than the B-24 Liberator, a World War II heavy bomber), also came at a considerable increase at cost. Whereas militaries had previously specialized fighters for specific roles, such as night fighter, heavy fighter and strike fighter, in order to counter the growing cost of fighters, militaries began to consolidate missions. The McDonnell F-4 Phantom II was designed as a pure interceptor for the United States Navy, but became a highly successful multi-role aircraft for the United States Air Force, Navy and United States Marine Corps as well as many other nations. It is the only combat aircraft to be simultaneously flown by all three American service branches.

Notable aircraft:

Fourth generation (1970-1990) In reaction to the continually rising cost of fighters and the demonstrated success of the F-4 Phantom II, multirole fighters became popular during this period, and even aircraft designed for a specific role (as the F-4 had) acquired multi-role capability. Fighters such as the MiG-23 and Panavia Tornado have versions specially suited for various roles, while true multirole warplanes include the F/A-18 Hornet and Dassault Mirage 2000. This was facilitated by avionics which could switch seamlessly between air and ground modes. As development costs increased, economics further pushed the development for multirole aircraft.

Unlike interceptors of the previous era, most modern air-superiority fighters have been designed to be agile dog-fighters. Fly-by-wire controls and relaxed stability are common among modern fighters. Aircraft here make up most of the "fourth generations" of fighter jets.

Notable aircraft:

Generation 4.5 (1990-2000) This half-generation has been coined to describe the next generation of fighters in service, marked by a stagnation of aerodynamic technologies (compared with the boom of the third-generation) matched with a tremendous advance in avionics and other flight electronics, as a result of applying the advances made in microchip and semiconductor technology in the 1980s and 1990s, as well as limited stealth shaping made possible with supercomputers. A prime example of this generation is the F/A-18E/F Super Hornet, based on the 1970s Hornet design. While the basic aerodynamic features remain the same, the Super Hornet features improved avionics in the form of an all-glass cockpit, a solid-state AESA fixed-array radar, new engines, the structural use of composite materials to reduce weight, and a slightly modified shape to minimize its radar signature. Of these, only the Super Hornet and the Rafale have seen combat action.

Notable aircraft:

Fifth generation (2000-Present)

The current cutting edge of fighter design combines previous emphasis on versatility with new developments such as thrust vectoring, composite materials, supercruise, stealth technology, advanced radar and sensors, and integrated avionics designed to reduce the pilot's workload while vastly improving situational awareness.

Of these, only the American F-22 Raptor, put into production in 2004, is operational, and is often regarded as the first of a new generation of fighters, termed the "fifth-generation". The in-development F-35 Lightning II (formerly Joint Strike Fighter) and the F-22 have influenced the continued development of the fourth-generation designs, and the shape of design work for the Russian PAK FA and other countries' long-term fighter development projects (for instance, the rumoured Chinese Shenyang J-XX project, Indian Medium Combat Aircraft and South Korean KFX (aircraft)). Later cancelled technology demonstrators of fifth-generation fighter aircraft include the United States YF-23 Black Widow II, Boeing X-32 and McDonnell Douglas X-36 plus Soviet Union Mikoyan Project 1.44, later upgraded by Russia to version 1.44.

In Service

Scheduled To Enter Active Service Test flight by 2009 and enter active service by 2012

Technology Demonstrators Built, flown and tested (one unit only) - but design not selected for active service In Development In very early development or rumored projects

See also

References External links



, F-86 Sabre, P-38 Lightning and P-51 Mustang fly in formation during an air show at Langley Air Force Base, Virginia. The formation displays two generations of Air Force fighter aircraft, and an ground attack aircraft (the A-10).A fighter aircraft is a military aircraft designed primarily for attacking other aircraft, as opposed to a bomber, which is designed to attack ground targets, primarily by dropping bombs. Fighters are comparatively small, fast, and maneuverable. Fighter aircraft are the primary means by which armed forces gain air superiority. At least since World War II, air superiority has been a crucial component of victory in most modern warfare, particularly "conventional" warfare between regular armies(as opposed to Guerrilla warfare), and their acquisition and maintenance represent a very substantial proportion of military budgets in militaries that maintain modern fighter forces.

Introduction The word “fighter” did not become the official British term for a single seat fighter until after the First World War. In the RFC/RAF such aircraft continued to be called “scouts” into the early nineteen twenties. The French, Italians and Germans used (and still use) terms that literally mean “hunter”, while in Russian the fighter is called "истребитель" which is literally "exterminator". The Americans, perhaps originally due to a mistranslation of the French word “chasseur” called their fighters “pursuit” aircraft until the late nineteen forties.

By whatever name they are KNOWN, fighters were developed in response to the fledgling use of aircraft and airship in World War I for reconnaissance and ground attack roles.

As aerial warfare became increasingly important, so did control of the airspace. By World War II, fighters were predominantly all-metal monoplanes with wing-mounted batteries of cannons or heavy machine guns. By the end of the war, turbojets were already beginning to replace piston engines as the means of propulsion, and missiles to augment or replace guns.

For historical purposes, jet fighters are classified by generation. The generation terminology was initiated by Russian defense parlance in referring to the F-35 Lightning II as a "fifth-generation" plane. Years are not exact and intended as a guideline.

Modern jet fighters are predominantly powered by one or two turbofan engines, armed primarily with missiles (from as few as two on some lightweight day fighters to as many as eight to ten on air superiority fighters like the Su-27 Flanker or F-15 Eagle), with a cannon as backup armament (typically between 20 and 30mm in calibre), and equipped with a radar as the primary method of target acquisition.

Prop-powered fighters World War I biplane at the Imperial War Museum in LondonThe word “fighter” was first used to describe a two seater aircraft, with sufficient lift to carry a machine gun and its operator as well as the pilot. The first such “fighters” belonged to the “gunbus” series of experimental gun carriers of the Vickers company which culminated in the Vickers F.B.5 of 1914. The main drawback of this type of aircraft was its lack of speed. It was quickly realised that an aircraft intended to destroy its kind in the air needed at least to be fast enough to catch its quarry.

Fortunately another type of military aircraft already existed, which was to form the basis for an effective "fighter" in the modern sense of the word. It was based on the small fast aircraft developed before the war for such air races as the Gordon Bennett and Schneider trophies. The military scout aeroplane was not initially expected to be able to carry serious armament, but to rely on its speed to be able to reach the location it was required to “scout” or reconnoitre and return quickly to report – all the time making a difficult target for Anti-aircraft warfare or enemy gun-carrying aircraft. British “scout” aircraft in this sense included the Sopwith Tabloid and Bristol Scout – French equivalents included the light, fast Morane-Saulnier N.

In practice, after the actual commencement of the war the pilots of small scout aircraft armed themselves with pistols, carbines and an assortment of improvised weapons with which to attack enemy aircraft – proving to be as successful in their efforts as specifically designed “fighter” aircraft.

It was inevitable that sooner or later means of effectively arming “scouts” would be devised. One method was to build a Pusher configuration scout such as the Airco DH.2, with the propeller behind the pilot. The main drawback was that the high drag of a pusher type's tail structure meant that it was bound to be slower than an otherwise similar Tractor configuration aircraft. The other was to mount the machine gun armament outside the arc of the propeller. Given the tendency of early machine guns to jam (and hence the need for the pilot to have access to the gun’s breech) as well as determining the aiming point, this was a stopgap solution at best. Despite this mounting a machine gun to fire over the propeller arc was to remain in service from 1915 on the Nieuport 11 until 1918 on the Royal Aircraft Factory S.E.5 with its purpose built Foster mounting.

So clear was the need to arm a tractor scout with a forward firing gun whose bullets actually passed through the propeller arc that inventors were busy trying various methods in both France and Germany.Hanz Schneider had patented a device before the war to interrupt the machine gun's stream of bullets (by preventing it from firing when the propellor's blade was in the way) before the war and Anthony Fokker developed this into the Interrupter gear that would make the Fokker Eindecker such a feared name over the Western Front despite it being an adaptation of an obsolete pre-war French Morane-Saulnier racing monoplane. Simultaneously, Roland Garros (the first French 'ace') was also working on a synchronizer, which attempted to time the firing of the individual rounds similarly when the propellor wasn't in the way. Unfortunately his choice of machine gun was poor - the gas operated Hotchkiss wasn't predictable enough to be able to time the firing and as a desperation measure he fitted metal wedges to protect the propellor's blades. At the same time the RNAS was taping up the blades on its scouts so that any rounds that damaged the prop wouldn't cause it to fail before the aircraft could be landed, with the fabric from the tape hopefully holding the blade together.

The success of the Eindecker started a cycle of improvement among the combatants, building ever more efficient single seat fighters. The Albatros D.I of late 1916 set the classic pattern followed by almost all such aircraft for about twenty years. Like the D.I, they were biplanes (only very occasionally monoplanes, or triplanes). The strong box structure of the biplane wing allowed for a rigid wing that afforded accurate lateral control, essential for fighter-type maneuvers. They had a single crew member, who flew the aircraft and also operated its armament. They were armed with two synchronised Maxim gun-type machine guns, which were much easier to synchronise than other types – firing through the propeller arc. The gun breeches were typically right in front of the pilot’s face. This had obvious implications in case of accidents, but enabled jams (to which Maxim-type machine guns always remained liable) to be cleared in flight and made aiming them much easier.

replica at the Berlin Air Show, the "Red Baron" triplaneNotable aircraft:(with year of introduction)

1919-1938 P-26 Peashooter which first flew in 1932Fighter development slowed between the wars, the most significant change coming late in the period, when the classic WWI type machines started to give way to metal monocoque or semi-monocoque monoplanes, with cantilever wing structures. Gun synchronisation became less and less important, as increasingly heavy armament tended to be mounted in the wings, outside the arc of the propeller.

Some air forces dabbled with "heavy fighters" (called "destroyers" by the Germans). These were larger aircraft, sometimes adaptations of light bomber or medium bomber types, and usually with two engines. The idea did not take hold except for some specialized applications requiring a heavier payload. In particular, heavy fighters were no match for normal fighters in combat.

The primary driver of fighter innovation, right up to the period of rapid rearmament in the late thirties, were not military budgets, but civilian aircraft races. Aircraft designed for these races pioneered innovations like streamlining and more powerful engines that would find their way into the fighters of World War II.

Notable aircraft:

World War II PZL P.11c from the Eagle Owls squadron. On 1 September 1939, Flight Lieutenant Hieronim Dudwał, flying this plane, shot down a German He 111 over Warsaw.Aerial combat formed an important part of World War II military doctrine. The ability of aircraft to locate, harass, and interdict ground forces was an instrumental part of the German combined-arms doctrine, and their inability to seize air superiority over Britain rendered an invasion infeasible. Erwin Rommel noted the effect of airpower: "Anyone who has to fight, even with the most modern weapons, against an enemy in complete command of the air, fights like a savage against modern European troops, under the same handicaps and with the same chances of success."

Fighter aircraft of WWII introduced rockets as well as the first jet engine- powered designs. Piston-engined fighters continued to be refined and developed with increasing performance and capabilities, up until the advent of jet aircraft such as the Messerschmitt Me 262 and Gloster Meteor. Many of these fighters could do over 400 mph (600 km/h) in level flight, and were fast enough in a dive that they started encountering the transonic buffeting experienced near the speed of sound, occasionally breaking up in flight due to the heavy load placed on an aircraft near the so-called "sound barrier". Dive brakes were developed late in World War II to minimise these problems and restore control to pilots.

Radar, invented shortly prior to World War II, was fitted to some fighters, such as the Messerschmitt Bf 110, F6F Hellcat and Northrop P-61 Black Widow to enable them to locate targets at night. Another innovation of this period was the strike fighter. Short on bombers, Marines in the Pacific Ocean theater of World War II bolted bomb racks on to their F4U Corsairs. This proved a versatile concept, as the fighters were able to fight enemy fighters once they had relieved themselves of their bombload. The F6F Hellcat was also used in similar fashion in late 1944 and 1945.

Notable aircraft:

Jet-powered fighters First-generation jet fighters (1944-1953) The first generation represents the first attempts at using turbojets for propulsion, providing greatly increased speed (the efficiency of piston-driven propellers drops off considerably at transsonic speeds). Many of these early jets resembled their piston-driven counterparts in several ways. Many were straight-winged aircraft armed primarily with cannon; radar was not yet in common usage except on specialized night fighters.

The first jets were developed during World War II and saw combat in its last year. Messerschmitt developed the first operational jet fighter, the Messerschmitt Me 262. It was considerably faster than piston-driven aircraft, and in the hands of a competent pilot, was practically untouchable. Due to German fuel shortages, however, it saw little use. Nevertheless the plane indicated the obsolescence of piston-driven aircraft. Spurred by reports of the German jets, Britain's Gloster Meteor entered production soon after and the two entered service around the same time in 1944. By the end of the war almost all work on piston powered fighters had ended. Mixed-propulsion designs such as the Ryan FR Fireball saw brief use, but by the end of the 1940s virtually all new combat aircraft were jet-powered.

Despite the advantages, the early jet fighters were far from perfect, particularly in the opening years of the generation. Their operational lifespans could be measured primarily in hours; the engines themselves were fragile and bulky, and power could be adjusted only slowly. Innovations such as swept wings, ejector seats, and all-moving tailplanes were introduced in this period.

Notable aircraft:

Second generation (1953-1960) . This was the first American service aircraft to break the sound barrier in level flight. fighterThe second generation describes the integration of many new technologies to greatly improve the fighting capability of the jet fighter. The introduction of guided missiles such as the AIM-9 Sidewinder and AIM-7 Sparrow moved combat to beyond visual range (though it often devolved into dogfights in visual range), necessitating the standardization of radar to acquire targets. Designers experimented with a variety of aeronautics innovations, such as the swept wing, delta wing, variable-geometry wings, and area ruled fuselages. With the aid of swept wing, these were the first production aircraft to break the sound barrier.

The primary specializations of this era were the fighter-bomber (such as the F-105 and the Sukhoi Su-7), and the Interceptor aircraft (English Electric Lightning and F-104 Starfighter). The interceptor was an outgrowth of the vision that guided missiles would completely replace guns and combat would take place at beyond visual range. As a result, interceptors were designed with a large missile payload and a powerful radar, sacrificing agility in favor of speed and rate of climb.

Notable aircraft:

Third generation (1960-1970) The third generation is marked by maturity in the innovations introduced in the first generation. As this aeronautical development approached maturity, growth in combat capability grew via the introduction of improved missiles, radar, and other avionics. Most significantly, as a result of combat experience with guided missiles, designers conceded that combat could and would degenerate into close dogfights. Guns again became standard, and maneuverability was once again a priority.

These innovations, while greatly improving the capabilities of fighters (the F-4 could carry a payload greater than the B-24 Liberator, a World War II heavy bomber), also came at a considerable increase at cost. Whereas militaries had previously specialized fighters for specific roles, such as night fighter, heavy fighter and strike fighter, in order to counter the growing cost of fighters, militaries began to consolidate missions. The McDonnell F-4 Phantom II was designed as a pure interceptor for the United States Navy, but became a highly successful multi-role aircraft for the United States Air Force, Navy and United States Marine Corps as well as many other nations. It is the only combat aircraft to be simultaneously flown by all three American service branches.

Notable aircraft:

Fourth generation (1970-1990) In reaction to the continually rising cost of fighters and the demonstrated success of the F-4 Phantom II, multirole fighters became popular during this period, and even aircraft designed for a specific role (as the F-4 had) acquired multi-role capability. Fighters such as the MiG-23 and Panavia Tornado have versions specially suited for various roles, while true multirole warplanes include the F/A-18 Hornet and Dassault Mirage 2000. This was facilitated by avionics which could switch seamlessly between air and ground modes. As development costs increased, economics further pushed the development for multirole aircraft.

Unlike interceptors of the previous era, most modern air-superiority fighters have been designed to be agile dog-fighters. Fly-by-wire controls and relaxed stability are common among modern fighters. Aircraft here make up most of the "fourth generations" of fighter jets.

Notable aircraft:

Generation 4.5 (1990-2000) This half-generation has been coined to describe the next generation of fighters in service, marked by a stagnation of aerodynamic technologies (compared with the boom of the third-generation) matched with a tremendous advance in avionics and other flight electronics, as a result of applying the advances made in microchip and semiconductor technology in the 1980s and 1990s, as well as limited stealth shaping made possible with supercomputers. A prime example of this generation is the F/A-18E/F Super Hornet, based on the 1970s Hornet design. While the basic aerodynamic features remain the same, the Super Hornet features improved avionics in the form of an all-glass cockpit, a solid-state AESA fixed-array radar, new engines, the structural use of composite materials to reduce weight, and a slightly modified shape to minimize its radar signature. Of these, only the Super Hornet and the Rafale have seen combat action.

Notable aircraft:

Fifth generation (2000-Present)

The current cutting edge of fighter design combines previous emphasis on versatility with new developments such as thrust vectoring, composite materials, supercruise, stealth technology, advanced radar and sensors, and integrated avionics designed to reduce the pilot's workload while vastly improving situational awareness.

Of these, only the American F-22 Raptor, put into production in 2004, is operational, and is often regarded as the first of a new generation of fighters, termed the "fifth-generation". The in-development F-35 Lightning II (formerly Joint Strike Fighter) and the F-22 have influenced the continued development of the fourth-generation designs, and the shape of design work for the Russian PAK FA and other countries' long-term fighter development projects (for instance, the rumoured Chinese Shenyang J-XX project, Indian Medium Combat Aircraft and South Korean KFX (aircraft)). Later cancelled technology demonstrators of fifth-generation fighter aircraft include the United States YF-23 Black Widow II, Boeing X-32 and McDonnell Douglas X-36 plus Soviet Union Mikoyan Project 1.44, later upgraded by Russia to version 1.44.

In Service

Scheduled To Enter Active Service Test flight by 2009 and enter active service by 2012

Technology Demonstrators Built, flown and tested (one unit only) - but design not selected for active service In Development In very early development or rumored projects

See also

References External links



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