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AIM-9 Sidewinder

May 07, 2023

The AIM-9 Sidewinder (where "AIM" stands for "Air Intercept Missile") is a short-range air-to-air missile which entered service with the United States Navy in 1956, and subsequently was adopted by the US Air Force in 1964. Since then, the Sidewinder has proved to be an enduring international success, and its latest variants remain standard equipment in most Western-aligned air forces.[3] The Soviet K-13 (AA-2 'Atoll'), a reverse-engineered copy of the AIM-9B, was also widely adopted by a number of nations.

AIM-9 Sidewinder
AIM-9L
TypeShort-range air-to-air missile
Place of originUnited States
Service history
In service1956–present
Production history
ManufacturerRaytheon Company[1]
Ford Aerospace
Loral Corp.
Unit costUS$381,069.74 (Block II)
US$399,500.00 (Block II Plus)
US$209,492.75 (training missile)
(All as in 2019[2])
Produced1953-present
Specifications
Mass188 pounds (85.3 kg)[1]
Length9 feet 11 inches (3.02 m)[1]
Diameter5 in (127.0 mm)[1]
WarheadWDU-17/B annular blast-fragmentation[1]
Warhead weight20.8 lb (9.4 kg)[1]
Detonation
mechanism
IR proximity fuze
EngineHercules/Bermite Mk. 36 solid-fuel rocket
Wingspan11 in (279.4 mm)
Operational
range
0.6 to 22 miles (1.0 to 35.4 km)[not verified in body]
Maximum speed Mach 2.5+[1]
Guidance
system
Infrared homing (most models)
Semi-active radar homing (AIM-9C)
Launch
platform
Aircraft, naval vessels, fixed launchers, and ground vehicles

Low-level development started in the late 1940s, emerging in the early 1950s as a guidance system for the modular Zuni rocket.[4][5] This modularity allowed for the introduction of newer seekers and rocket motors, including the AIM-9C variant, which used semi-active radar homing and served as the basis of the AGM-122 Sidearm anti-radar missile. Originally a tail-chasing system, early models saw extensive use during the Vietnam War but had a low success rate. This led to all-aspect capabilities in the L version which proved to be an extremely effective weapon during combat in the Falklands War and the Operation Mole Cricket 19 ("Bekaa Valley Turkey Shoot") in Lebanon. Its adaptability has kept it in service over newer designs like the AIM-95 Agile and SRAAM that were intended to replace it.

The Sidewinder is the most widely used air-to-air missile in the West, with more than 110,000 missiles produced for the U.S. and 27 other nations, of which perhaps one percent have been used in combat. It has been built under license by some other nations including Sweden, and can even equip helicopters, such as the Bell AH-1Z Viper. The AIM-9 is one of the oldest, lowest cost, and most successful air-to-air missiles, with an estimated 270 aircraft kills in its history of use.[6]

The United States Navy hosted a 50th-anniversary celebration for the Sidewinder in 2002. Boeing won a contract in March 2010 to support Sidewinder operations through to 2055, guaranteeing that the weapons system will remain in operation until at least that date. Air Force Spokeswoman Stephanie Powell noted that due to its relatively low cost, versatility, and reliability it is "very possible that the Sidewinder will remain in Air Force inventories through the late 21st century".[7]

Design

 
A missile (blue) intercepts a target (red) by maintaining constant bearing to it (green)

The Sidewinder is not guided by the actual position recorded by the detector, but by the change in position since the last sighting. So if the target remained at 5 degrees left between two rotations of the mirror, the electronics would not output any signal to the control system. Consider a missile fired at right angles to its target; if the missile is flying at the same speed as the target, it should "lead" it by 45 degrees, flying to an impact point far in front of where the target was when it was fired. If the missile is traveling four times the speed of the target, it should follow an angle about 11 degrees in front. In either case, the missile should keep that angle all the way to interception, which means that the angle that the target makes against the detector is constant. It was this constant angle that the Sidewinder attempted to maintain. This "proportional pursuit" system is straightforward to implement and offers high-performance lead calculation almost for free and can respond to changes in the target's flight path,[8] which is much more efficient and makes the missile "lead" the target.

History

Origins

 
Prototype Sidewinder-1 missile on an AD-4 Skyraider during flight testing

During World War II, various researchers in Germany designed infrared guidance systems of various complexity. The most mature development of these, codenamed Hamburg, was intended for use by the Blohm & Voss BV 143 glide bomb in an anti-ship role. Hamburg used a single IR photocell as its detector along with a spinning disk with lines painted on it, alternately known as a "reticle" or "chopper". The reticle spun at a fixed speed, causing the output of the photocell to be interrupted in a pattern, and the precise timing of the resulting signal indicated the bearing of the target. Although Hamburg and similar devices like Madrid were essentially complete, the work of mating them to a missile had not been carried out by the time the war ended.[9]

In the immediate post-war era, Allied military intelligence teams collected this information, along with many of the engineers working on these projects. Several lengthy reports on the various systems were produced and disseminated among the western aircraft firms, while a number of the engineers joined these companies to work on various missile projects. By the late 1940s a wide variety of missile projects were underway, from huge systems like the Bell Bomi rocket-powered bomber to small systems like air-to-air missiles. By the early 1950s, both the US Air Force and Royal Air Force had started major IR seeker missile projects.[9]

 
A F-104 Starfighter test-firing an AIM-9 Sidewinder against a QF-80 target drone at China Lake

The development of the Sidewinder missile began in 1946 at the Naval Ordnance Test Station (NOTS), Inyokern, California, now the Naval Air Weapons Station China Lake, as an in-house research project conceived by William B. McLean. McLean initially called his effort "Local Fuze Project 602" using laboratory funding, volunteer help and fuze funding to develop what they called a heat-homing rocket. The name Sidewinder was selected in 1950 and is the common name of Crotalus cerastes, a rattlesnake, which uses infrared sensory organs to hunt warm-blooded prey.[10][11]

It did not receive official funding until 1951 when the effort was mature enough to show to Admiral William "Deak" Parsons, the Deputy Chief of the Bureau of Ordnance (BuOrd). It subsequently received designation as a program in 1952. Originally called the Sidewinder 1, the first live firing was on 3 September 1952. The missile intercepted a drone for the first time on 11 September 1953. The missile carried out 51 guided flights in 1954, and in 1955 production was authorized.[10]

In 1954, the US Air Force carried out trials with the original AIM-9A and the improved AIM-9B at the Holloman Air Development Center. The first operational use of the missile was by Grumman F9F-8 Cougars and FJ-3 Furies of the United States Navy in the middle of 1956.[10]

First Generation Rear-Aspect Variants

Nearly 100,000 of the first generation (AIM-9B/C/D/E) of the Sidewinder were produced with Raytheon and General Electric as major sub-contractors. Philco-Ford produced the guidance and control sections of the early missiles. The NATO version of the first generation missile was built under license in Germany by Bodenseewerk Gerätetechnik; 9,200 examples were built.[10]

Combat debut: Taiwan Strait, 1958

The first combat use of the Sidewinder was on 24 September 1958, with the Republic of China (Taiwan) Air Force, during the Second Taiwan Strait Crisis. During that period of time, ROCAF North American F-86 Sabres were routinely engaged in air battles with the People's Republic of China over the Taiwan Strait. The PRC MiG-17s had higher altitude ceiling performance and in similar fashion to Korean War encounters between the F-86 and earlier MiG-15, the PRC formations cruised above the ROC Sabres, immune to their .50 cal weaponry and only choosing battle when conditions favored them.[12]

In a highly secret effort, the United States provided a few dozen Sidewinders to ROC forces and an Aviation Ordnance Team from the U.S. Marine Corps to modify their aircraft to carry the Sidewinder. In the first encounter on 24 September 1958, the Sidewinders were used to ambush the MiG-17s as they flew past the Sabres thinking they were invulnerable to attack. The MiGs broke formation and descended to the altitude of the Sabres in swirling dogfights. This action marked the first successful use of air-to-air missiles in combat, the downed MiGs being their first casualties.[12]

During the Taiwan Strait battles of 1958, a ROCAF AIM-9B hit a PLAAF MiG-17 without exploding; the missile lodged in the airframe of the MiG and allowed the pilot to bring both plane and missile back to base. Soviet engineers later said that the captured Sidewinder served as a "university course" in missile design and substantially improved Soviet air-to-air capabilities.[13] They were able to reverse-engineer a copy of the Sidewinder, which was manufactured as the Vympel K-13/R-3S missile, NATO reporting name AA-2 Atoll. The Vympel K-13 entered service with Soviet air forces in 1960.[14]

Vietnam War service 1965–1973

Performance of the 454 Sidewinders launched[15] during the war was not as satisfactory as hoped. Both the USN and USAF studied the performance of their aircrews, aircraft, weapons, training, and supporting infrastructure. The USAF conducted the classified Red Baron Report while the Navy conducted a study concentrating primarily on performance of air-to-air weapons that was informally known as the "Ault Report". The impact of both studies resulted in modifications to the Sidewinder by both services to improve its performance and reliability in the demanding air-to-air arena.[16]

 
AIM-9D-armed F-4B of VF-111 on USS Coral Sea

Vietnam War AIM-9 claimed aerial combat kills

USN AIM-9 Sidewinder aerial combat kills[17]
Missile firing aircraft AIM-9 Sidewinder model (Type) Aircraft downed Comments
F-8E Crusader AIM-9D (1) MiG-21/(9) MiG-17s US fighters launched from US aircraft carriers; USS Hancock, USS Oriskany, USS Bon Homme Richard, USS Ticonderoga
F-8C AIM-9D (3) MiG-17s/(1) MiG-21 US fighters launched from USS Bon Homme Richard and USS Intrepid
F-8H AIM-9D (2) MiG-21s US fighters launched from USS Bon Homme Richard
F-4B Phantom II AIM-9D (2) MiG-17s/(2) MiG-21s US fighters launched from USS Constellation and USS Kitty Hawk
F-4J AIM-9D (2) MiG-21s US fighters launched from USS America and USS Constellation
F-4B AIM-9B (1) MiG-17 US fighters launched from USS Kitty Hawk
F-4B AIM-9D (7) MiG-17s/(2) MiG-19s Fighters launched from USS Coral Sea and USS Midway
F-4J AIM-9G (7) MiG-17s/(7) MiG-21s Fighters launched from USS Enterprise, USS America, USS Saratoga, USS Constellation, USS Kitty Hawk
Total MiG-17s 29
Total MiG-21s 15
Total MiG-19s 2
USN Total: 46
USAF AIM-9 Sidewinder aerial combat kills[17]
Missile firing aircraft AIM-9 Sidewinder model (type) Aircraft downed Comments
F-4C AIM-9B (13) MiG-17s/(9) MiG-21s USAF 45th Tactical Fighter Squadron (TFS), 389th TFS, 390th TFS, 433rd TFS, 480th TFS, 555th TFS
F-105D Thunderchief AIM-9B (3) MiG-17s 333rd TFS, 469th TFS
F-4D AIM-9E (2) MiG-21s 13th, 469th TFS
F-4E AIM-9E (4) MiG-21s 13th TFS, 34th TFS, 35th TFS, 469th TFS
F-4D AIM-9J (2) MiG-19s/(1) MiG-21 523rd TFS, 555th TFS
Total MiG-17s 16
Total MiG-21s 16
Total MiG-19s 2
USAF Total: 34

In total 452 Sidewinders were fired during the Vietnam War, resulting in a kill probability of 0.18.[18]

Pre all-aspect variants[19][6]
Subtype AIM-9B AIM-9D AIM-9E AIM-9G AIM-9H AIM-9J
Service Joint USN USAF USN USN USAF
Seeker design features
Origin Naval Weapons Center AIM-9B AIM-9B AIM-9D AIM-9G AIM-9E
Detector PbS PbS PbS PbS PbS PbS
Cooling Uncooled Nitrogen Peltier Nitrogen Nitrogen Peltier
Dome window Glass MgF2 MgF2 MgF2 MgF2 MgF2
Reticle speed (Hz) 70 125 100 125 125 100
Modulation AM AM AM AM AM AM
Track rate (°/s) 8.0 - 11.0 [20] 12.0 16.5 12.0 20.0[20] 16.5
Electronics thermionic thermionic hybrid thermionic solid state hybrid
Warhead 4.5 kg (9.9 lb)
blast-fragmentation 		11 kg (24 lb) Mk. 48
continuous rod 		4.5 kg (9.9 lb)
blast-fragmentation 		11 kg (24 lb) Mk. 48
continuous rod 		11 kg (24 lb) Mk. 48
continuous rod 		4.5 kg (9.9 lb)
blast-fragmentation
Fuze Passive-IR Passive-IR/HF Passive-IR Passive-IR/HF Passive-IR/HF Passive-IR
Powerplant
Manufacturer Thiokol Hercules Thiokol Hercules Hercules/Bermite Hercules/Aerojet
Type Mk.17 Mk.36 Mk.17 Mk.36 Mk.36 Mod 5, 6, 7 Mk.17
Launcher Aero-III LAU-7A Aero-III LAU-7A LAU-7A Aero-III
Missile dimensions
Length 2.82 m (9.3 ft) 2.86 m (9.4 ft) 3 m (9.8 ft) 2.86 m (9.4 ft) 2.86 m (9.4 ft) 3 m (9.8 ft)
Span 0.55 m (1.8 ft) 0.62 m (2.0 ft) 0.55 m (1.8 ft) 0.62 m (2.0 ft) 0.62 m (2.0 ft) 0.58 m (1.9 ft)
Weight 70.39 kg (155.2 lb) 88.5 kg (195 lb) 74.5 kg (164 lb) 87 kg (192 lb) 84.5 kg (186 lb) 77 kg (170 lb)

Note: the speed of the B model was around 1.7 Mach and the other models above 2.5.

Later Generation All-aspect variants

AIM-9L

 
AIM-9L Captive air training missile with part/section in blue color, denoting inert warhead and rocket motor, for training purposes.

The next major advance in IR Sidewinder development was the AIM-9L ("Lima") model which was in full production in 1977.[19][21] This was the first "all-aspect" Sidewinder with the ability to attack from all directions, including head-on, which had a dramatic effect on close-in combat tactics. Its first combat use was by a pair of US Navy F-14s in the Gulf of Sidra in 1981 versus two Libyan Sukhoi Su-22s, both of the latter being destroyed by AIM-9Ls. Its first use in a large-scale conflict was by the United Kingdom during the 1982 Falklands War. In this campaign the "Lima" reportedly achieved kills from 80% of launches, a dramatic improvement over the 10–15% levels of earlier versions, scoring 17 kills and 2 shared kills against Argentine aircraft.[22]

AIM-9M

The AIM-9M is an improved AIM-9L having better background rejection and infrared countermeasures discrimination, and a low-smoke motor to reduce the visual signature of the weapon. Deployed in large numbers during the 1991 Gulf War, the AIM-9M was responsible for all 10 Sidewinder kills recorded during that conflict.[citation needed]

BOA/Box Office

China Lake developed an improved compressed carriage control configuration titled BOA. "Compressed carriage" missiles have smaller control surfaces to allow more missiles to fit in a given space.[23] The surfaces may be permanently "clipped", or may fold out when the missile is launched.

AIM-9X

Hughes Electronics was awarded a contract for development of the AIM-9X Sidewinder in 1996 after a competition against Raytheon for the next short-range aerial combat missile,[24] though Raytheon purchased the defense portions of Hughes Electronics the following year.[25] The AIM-9X entered service in November 2003 with the USAF (the lead platform was the F-15C) and the USN (the lead platform was the F/A-18C) and is a substantial upgrade to the Sidewinder family featuring an imaging infrared focal-plane array (FPA) seeker with claimed 90° off-boresight capability, compatibility with helmet-mounted displays such as the new U.S. Joint Helmet Mounted Cueing System (JHMCS), and a totally new two-axis thrust-vectoring control (TVC) system providing increased turn capability over traditional control surfaces (60Gs). Utilizing the JHMCS, a pilot can point the AIM-9X missile's seeker and "lock on" by simply looking at a target, thereby increasing air combat effectiveness.[26] It retains the same rocket motor, fuze and warhead of the AIM-9M, but its lower drag gives it improved range and speed.[27] The AIM-9X also includes an internal cooling system, eliminating the need for use of launch-rail nitrogen bottles (U.S. Navy and Marines) or internal argon bottles (USAF). It also features an electronic safe and arm device similar to the AMRAAM, allowing for a reduction in minimum range, and reprogrammable infrared Counter Counter Measures (IRCCM) capability that coupled with the FPA provides improved look down into clutter and performance against the latest IRCM. Though not part of the original requirement, the AIM-9X demonstrated potential for lock-on after launch capability, allowing for possible internal use for the F-35, F-22 Raptor and even in a submarine-launched configuration for use against ASW platforms.[28] The AIM-9X has been tested for a surface attack capability, with mixed results.[29]

Block II

Testing work on the AIM-9X Block II version began in September 2008.[30] The Block II adds lock-on after launch capability with a datalink, so the missile can be launched first and then directed to its target afterwards by an aircraft with the proper equipment for 360-degree engagements, such as the F-35 or the F-22.[31] By January 2013, the AIM-9X Block II was about halfway through its operational testing and performing better than expected. NAVAIR reported that the missile was exceeding performance requirements in all areas, including lock-on after launch (LOAL). One area where the Block II needs improvement is helmetless high off-boresight (HHOBS) performance. It is functioning well on the missile, but performance is below that of the Block I AIM-9X. The HHOBS deficiency does not impact any other Block II capabilities, and is planned to be improved upon by a software clean-up build. Objectives of the operational test were due to be completed by the third quarter of 2013.[32] However, as of May 2014 there have been plans to resume operational testing and evaluation (including surface-to-air missile system compatibility).[33] As of June 2013, Raytheon had delivered 5,000 AIM-9X missiles to the armed services.[34] On 18 June 2017, after an AIM-9X did not successfully track a targeted Syrian Air Force Su-22 Fitter, US Navy Lt. Cmdr. Michael “Mob” Tremel flying a F/A-18E Super Hornet used an AMRAAM AAM to successfully destroy the enemy aircraft.[35] There is a theory that the Sidewinder is tested against American and not Soviet/Russian flares. The Sidewinder is used to rejecting American but not Soviet/Russian flares. Similar issues arose from the testing of the AIM-9P model. The missile would ignore American flares but go for Soviet ones due to these flares have "different burn time, intensity and separation."[36][37]

In February 2015, the U.S. Army successfully launched an AIM-9X Block II from the new Multi-Mission Launcher (MML), a truck-mounted missile launch container that can hold 15 of the missiles. The MML is part of the Indirect Fire Protection Capability Increment 2-Intercept (IFPC Inc. 2-I) to protect ground forces against cruise missile and unmanned aerial vehicle threats. The AIM-9X Block II has been determined by the Army to be the best solution to cruise missile and UAV threats because of its passive imaging infrared seeker. The MML will complement the AN/TWQ-1 Avenger air defense system and is expected to begin fielding in 2019.[38][needs update]

Block III

In September 2012, Raytheon was ordered to continue developing the Sidewinder into a Block III variant, even though the Block II had not yet entered service. The USN projected that the new missile would have a 60 percent longer range, modern components to replace old ones, and an insensitive munitions warhead, which is more stable and less likely to detonate by accident, making it safer for ground crews. The need for the AIM-9 to have an increased range was caused by digital radio frequency memory (DRFM) jammers that can blind the onboard radar of an AIM-120D AMRAAM, so the Sidewinder Block III's passive imaging infrared homing guidance system was seen as a useful alternative. Although it could supplement the AMRAAM for beyond visual range (BVR) engagements, it would still be capable of performing within visual range (WVR). Modifying the AIM-9X was seen as a cost-effective alternative to developing a new missile in a time of declining budgets. To achieve the range increase, the rocket motor would have a combination of increased performance and missile power management. The Block III would "leverage" the Block II's guidance unit and electronics, including the AMRAAM-derived datalink. The Block III was scheduled to achieve initial operational capability (IOC) in 2022, following the increased number of F-35 Lightning II Joint Strike Fighters to enter service.[39][40] The Navy pressed for this upgrade in response to a projected threat which analysts have speculated will be due to the difficulty of targeting upcoming Chinese fifth-generation jet fighters (Chengdu J-20, Shenyang J-31) with the radar-guided AMRAAM,[41] specifically that Chinese advances in electronics will mean Chinese fighters will use their AESA radars as jammers to degrade the AIM-120's kill probability.[42] However, the Navy's FY 2016 budget canceled the AIM-9X Block III as they cut down buys of the F-35C, as it was primarily intended to permit the fighter to carry six BVR missiles; the insensitive munition warhead will be retained for the AIM-9X program.[43]

All-aspect variants[19]
Subtype AIM-9L AIM-9M AIM-9P-4/5 AIM-9R
Service Joint Joint USAF, export USN
Seeker design features
Origin AIM-9H AIM-9L AIM-9J/N AIM-9M
Detector InSb InSb InSb Focal-plane array
Cooling Argon Argon Argon
Dome window MgF2 MgF2 MgF2 Glass
Reticle speed (Hz) 125 125 100 Focal-plane array
Modulation FM FM FM Focal-plane array
Track rate (°/s) 22[44] Classified >16.5 Classified
Electronics Solid state Solid state Solid state Solid state
Warhead 9.4 kg (21 lb) WDU-17/B
annular blast-fragmentation 		9.4 kg (21 lb) WDU-17/B
annular blast-fragmentation 		Annular
blast-fragmentation 		Annular
blast-fragmentation
Fuze IR/Laser IR/Laser IR/Laser IR/Laser
Powerplant
Manufacturer Hercules/Bermite MTI/Hercules Hercules/Aerojet MTI/Hercules
Type Mk.36 Mod.7,8 Mk.36 Mod.9 SR.116 Mk.36 Mod.9
Launcher Common Common Common Common
Missile dimensions
Length 2.89 m (9.5 ft) 2.89 m (9.5 ft) 3 m (9.8 ft) 2.89 m (9.5 ft)
Span 0.64 m (2.1 ft) 0.64 m (2.1 ft) 0.58 m (1.9 ft) 0.64 m (2.1 ft)
Weight 86 kg (190 lb) 86 kg (190 lb) 86 kg (190 lb) 86 kg (190 lb)

2023 North American balloon & unidentified object shootdowns

On 4 February 2023, an F-22 Raptor operated by the United States Air Force used a single AIM-9X missile to shoot down a suspected Chinese spy balloon off the coast of Surfside Beach, South Carolina at an altitude between 60,000 to 65,000 feet (18,000 to 20,000 m).[45][46] Six days later, another object was shot down near Alaska.[47] On 11 and 12 February two more objects were shot down, over Yukon, Canada and Lake Huron in Michigan respectively.[48][49][50]

Sidewinder descendants

Anti-tank variant

 
Experimental use of an AIM-9L against tanks at China Lake, 1971

Naval Air Weapons Station China Lake experimented with Sidewinders in the air-to-ground mode including use as an anti-tank weapon. Starting from 2008, the AIM-9X demonstrated its ability as a successful light air-to-ground missile.[51]

In 2016 Diehl closed a deal with the Federal Office of Bundeswehr Equipment, Information Technology and In-Service Support to develop a laser guided Air-To-Ground variant of the Sidewinder missile based on the AIM-9L variant. In testing with the Swedish Defence Materiel Administration a Saab Gripen could hit one stationary and two moving targets.[52]

On 28 February 2018, the Iranian Islamic Revolutionary Guard Corps unveiled an anti-tank derivative of the Sidewinder missile named "Azarakhsh" intended for use by Bell AH-1J SeaCobra attack helicopters.[53]

Later developments

Larger rocket motor

Under the High Altitude Project, engineers at China Lake mated a Sidewinder warhead and seeker to a Sparrow rocket motor to experiment with usefulness of a larger motor.[54]

Other ground launch platforms

In 2016 the AIM-9X was test fired from a Multi-Mission Launcher at the White Sands Missile Range in New Mexico, USA.[55] During testing with the MML, the AIM-9X experienced issues with overheating. These issues have since been resolved.[56] In September 2021, the U.S. Army signed a contract with Dynetics to build prototypes for its Indirect Fires Protection Capability (IFPC), utilizing an MML-based launcher firing the Sidewinder to counter UAVs and cruise missiles. It is planned to be put into service in 2023.[57]

In May 2019 the AIM-9X Block II was test fired from the National Advanced Surface to Air Missile System (NASAMS) at the Andøya Space Center in Norway.[58]

Operators

Current operators

Former operators

Please note that this list is not definitive.

See also

Related development

Related lists

Comparable missiles

References

Notes

Citations

  1. ^ a b c d e f g Sea Power (January 2006). Wittman, Amy; Atkinson, Peter; Burgess, Rick (eds.). "Air-to-Air Missiles". Sea Power. Arlington, Virginia: Navy League of the United States. 49 (1): 95–96. ISSN 0199-1337.
  2. ^ (PDF). US Navy. February 2020. p. 105. Archived from the original (PDF) on 19 December 2020. Retrieved 11 January 2023.
  3. ^ Babcock, Elizabeth (September 1999). Sidewinder Invention and Early Years. The China Lake Museum Foundation. The Air Force subsequently procured Sidewinder AIM-9B missiles for its hottest tactical and strategic aircraft, p. 21
  4. ^ Military Technology (August 2008). "News Flash". World Defence Almanac: The Balance of Military Power. Heilsbachstraße 26 53123 Bonn-Germany: Mönch Publishing Group. 32 (8): 93–96. ISSN 0722-3226. "Alliant Techsystems and RUAG Aerospace have signed a teaming agreement to provide full-service and upgrade support of the AIM-9P-3/4/5 Sidewinder family of IR-guided short-range air-to-air missiles.{{cite journal}}: CS1 maint: location (link)
  5. ^ "Air Weapons: Beyond Sidewinder". www.strategypage.com. from the original on 3 February 2010. Retrieved 2 February 2010.
  6. ^ a b "Raytheon AIM-9 Sidewinder". www.designation-systems.net. from the original on 9 February 2010. Retrieved 2 February 2010.
  7. ^ "April 9, 2004: 416th Flight Test Squadron Test Fires AIM-9X for the First Time From an F-16". Air Force Test Center. United States Air Force. Retrieved 7 January 2022.
  8. ^ Echo-locating bats, as they pursue flying insects, also adopt such a strategy, see this PLoS Biology report: Ghose, K.; Horiuchi, T. K.; Krishnaprasad, P. S.; Moss, C. F. (18 April 2006). "Echo-locating Bats Use a Nearly Time-Optimal Strategy to Intercept Prey". PLOS Biology. 4 (5): e108. doi:10.1371/journal.pbio.0040108. PMC 1436025. PMID 16605303.
  9. ^ a b Kutzscher, Edgar (1957). "The Physical and Technical Development of Infrared Homing Devices". In Benecke, T; Quick, A (eds.). History of German Guided Missiles Development. NATO. from the original on 30 September 2015. Retrieved 20 October 2015.
  10. ^ a b c d Tom Hildreth (March–April 1988). "The Sidewinder Missile". Air-Britain Digest. 40 (2): 39–40. ISSN 0950-7434.
  11. ^ . Archived from the original on 23 September 2015. Retrieved 26 March 2015.
  12. ^ a b Sidewinder AIM-9. US Naval Academy 2012. from the original on 2 July 2018. Retrieved 21 November 2017.
  13. ^ Secret City: A history of the Navy at China Lake. OCLC 851089182.
  14. ^ Hollings, Alex (21 March 2021). "The Almost-Unbelievable True Story of the Sidewinder Missile". Popular Mechanics. Hearst Magazines. Retrieved 7 January 2022.
  15. ^ Michel III p. 287
  16. ^ Young, James. "Freedom's Flying Snake: The AIM-9 Sidewinder in The Cold War". Marine Corps University. United States Marine Corps. Retrieved 7 January 2022.
  17. ^ a b McCarthy Jr. p. 148-157
  18. ^ Friedman, Norman (1989). The Naval Institute Guide to World Naval Weapon Systems. Annapolis, Maryland: Naval Institute Press. p. 439. ISBN 978-1-55750-262-9.
  19. ^ a b c Carlo, Kopp (1 April 1994). "The Sidewinder Story; The Evolution of the AIM-9 Missile". Australian Aviation. 1994 (April). from the original on 17 December 2006. Retrieved 4 January 2007.
  20. ^ a b NAVAIR 01-245FDB-1T - Tactical Manual - F-4B J N - September 1972
  21. ^ Bonds 1989, p. 229.
  22. ^ "F-16 Armament – AIM-9 Sidewinder". from the original on 25 March 2015. Retrieved 26 March 2015.
  23. ^ http://handle.dtic.mil/100.2/ADP010957[permanent dead link]
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Bibliography

  • Babcock, Elizabeth (1999). Sidewinder – Invention and Early Years. The China Lake Museum Foundation. 26 pp. A concise record of the development of the original Sidewinder version and the central people involved in its design.
  • Bonds, Ray ed. The Modern US War Machine. New York City: Crown Publishers, 1989. ISBN 0-517-68802-6.
  • Bonds, Ray and David Miller (2002). "AIM-9 Sidewinder". Illustrated Directory of Modern American Weapons. Zenith Imprint. ISBN 978-0-7603-1346-6.
  • Chenel, Bernard; Liébert, Michel; Moreau, Eric (2014). Mirage III/5/50 en service à l'étranger. Le Vigen, France: Editions LELA Presse. ISBN 978-2-914017-76-3.
  • Clancy, Tom (1996). "Ordnance: How Bombs Got 'Smart'". Fighter Wing. London: HarperCollins, 1995. ISBN 978-0-00-255527-2.
  • Cooper, Tom (2017). Hot Skies Over Yemen, Volume 1: Aerial Warfare Over the Southern Arabian Peninsula, 1962-1994. Solihull, UK: Helion & Company Publishing. ISBN 978-1-912174-23-2.
  • Cooper, Tom (2018). Hot Skies Over Yemen, Volume 2: Aerial Warfare Over the Southern Arabian Peninsula, 1994-2017. Warwick, UK: Helion & Company Publishing. ISBN 978-1-911628-18-7.
  • Doty, Steven R. (29 February 2008). "Kunsan pilots improve capability with AIM-9X missile". Air Force Link. from the original on 2 March 2008. Retrieved 29 February 2008.
  • McCarthy, Donald J. Jr. MiG Killers, A Chronology of U.S. Air Victories in Vietnam 1965–1973. 2009, Specialty Press, North Branch, MN, U.S.A. ISBN 978-1-58007-136-9
  • Michel III, Marshall L. Clashes, Air Combat Over North Vietnam 1965–1972. 1997. ISBN 978-1-59114-519-6.
  • Westrum, Ron (1999). "Sidewinder—Creative missile development at China Lake." Naval Institute Press. ISBN 978-1-55750-951-2

External links

 
Wikimedia Commons has media related to AIM-9 Sidewinder.
  • Official website  
  • Encyclopædia Britannica
  • Raytheon AAM-N-7/GAR-8/AIM-9 Sidewinder – Designation Systems
  • The Sidewinder Story
  • Sidewinder at Howstuffworks.com
  • NAMMO Raufoss – Nordic Ammunition Company
  • F-15As launching AIM-9 Sidewinders at QF-4 on YouTube
  • Rolleron demonstration on YouTube
  • "Fox Two!" from Aviation History magazine, March 2013. Includes photos & video
  • Italy signs up for Aim-9x

May 07, 2023
sidewinder, where, stands, intercept, missile, short, range, missile, which, entered, service, with, united, states, navy, 1956, subsequently, adopted, force, 1964, since, then, sidewinder, proved, enduring, international, success, latest, variants, remain, st. The AIM 9 Sidewinder where AIM stands for Air Intercept Missile is a short range air to air missile which entered service with the United States Navy in 1956 and subsequently was adopted by the US Air Force in 1964 Since then the Sidewinder has proved to be an enduring international success and its latest variants remain standard equipment in most Western aligned air forces 3 The Soviet K 13 AA 2 Atoll a reverse engineered copy of the AIM 9B was also widely adopted by a number of nations AIM 9 SidewinderAIM 9LTypeShort range air to air missilePlace of originUnited StatesService historyIn service1956 presentProduction historyManufacturerRaytheon Company 1 Ford AerospaceLoral Corp Unit costUS 381 069 74 Block II US 399 500 00 Block II Plus US 209 492 75 training missile All as in 2019 2 Produced1953 presentSpecificationsMass188 pounds 85 3 kg 1 Length9 feet 11 inches 3 02 m 1 Diameter5 in 127 0 mm 1 WarheadWDU 17 B annular blast fragmentation 1 Warhead weight20 8 lb 9 4 kg 1 DetonationmechanismIR proximity fuzeEngineHercules Bermite Mk 36 solid fuel rocketWingspan11 in 279 4 mm Operationalrange0 6 to 22 miles 1 0 to 35 4 km not verified in body Maximum speedMach 2 5 1 GuidancesystemInfrared homing most models Semi active radar homing AIM 9C LaunchplatformAircraft naval vessels fixed launchers and ground vehiclesLow level development started in the late 1940s emerging in the early 1950s as a guidance system for the modular Zuni rocket 4 5 This modularity allowed for the introduction of newer seekers and rocket motors including the AIM 9C variant which used semi active radar homing and served as the basis of the AGM 122 Sidearm anti radar missile Originally a tail chasing system early models saw extensive use during the Vietnam War but had a low success rate This led to all aspect capabilities in the L version which proved to be an extremely effective weapon during combat in the Falklands War and the Operation Mole Cricket 19 Bekaa Valley Turkey Shoot in Lebanon Its adaptability has kept it in service over newer designs like the AIM 95 Agile and SRAAM that were intended to replace it The Sidewinder is the most widely used air to air missile in the West with more than 110 000 missiles produced for the U S and 27 other nations of which perhaps one percent have been used in combat It has been built under license by some other nations including Sweden and can even equip helicopters such as the Bell AH 1Z Viper The AIM 9 is one of the oldest lowest cost and most successful air to air missiles with an estimated 270 aircraft kills in its history of use 6 The United States Navy hosted a 50th anniversary celebration for the Sidewinder in 2002 Boeing won a contract in March 2010 to support Sidewinder operations through to 2055 guaranteeing that the weapons system will remain in operation until at least that date Air Force Spokeswoman Stephanie Powell noted that due to its relatively low cost versatility and reliability it is very possible that the Sidewinder will remain in Air Force inventories through the late 21st century 7 Contents 1 Design 2 History 2 1 Origins 2 2 First Generation Rear Aspect Variants 2 2 1 Combat debut Taiwan Strait 1958 2 2 2 Vietnam War service 1965 1973 2 2 3 Vietnam War AIM 9 claimed aerial combat kills 2 3 Later Generation All aspect variants 2 4 AIM 9L 2 5 AIM 9M 2 6 BOA Box Office 2 7 AIM 9X 2 7 1 Block II 2 7 2 Block III 2 8 2023 North American balloon amp unidentified object shootdowns 3 Sidewinder descendants 3 1 Anti tank variant 4 Later developments 4 1 Larger rocket motor 4 2 Other ground launch platforms 5 Operators 5 1 Current operators 5 2 Former operators 6 See also 6 1 Comparable missiles 7 References 7 1 Notes 7 2 Citations 7 3 Bibliography 8 External linksDesign Edit A missile blue intercepts a target red by maintaining constant bearing to it green This article possibly contains original research Please improve it by verifying the claims made and adding inline citations Statements consisting only of original research should be removed January 2023 Learn how and when to remove this template message The Sidewinder is not guided by the actual position recorded by the detector but by the change in position since the last sighting So if the target remained at 5 degrees left between two rotations of the mirror the electronics would not output any signal to the control system Consider a missile fired at right angles to its target if the missile is flying at the same speed as the target it should lead it by 45 degrees flying to an impact point far in front of where the target was when it was fired If the missile is traveling four times the speed of the target it should follow an angle about 11 degrees in front In either case the missile should keep that angle all the way to interception which means that the angle that the target makes against the detector is constant It was this constant angle that the Sidewinder attempted to maintain This proportional pursuit system is straightforward to implement and offers high performance lead calculation almost for free and can respond to changes in the target s flight path 8 which is much more efficient and makes the missile lead the target History EditOrigins Edit Prototype Sidewinder 1 missile on an AD 4 Skyraider during flight testing During World War II various researchers in Germany designed infrared guidance systems of various complexity The most mature development of these codenamed Hamburg was intended for use by the Blohm amp Voss BV 143 glide bomb in an anti ship role Hamburg used a single IR photocell as its detector along with a spinning disk with lines painted on it alternately known as a reticle or chopper The reticle spun at a fixed speed causing the output of the photocell to be interrupted in a pattern and the precise timing of the resulting signal indicated the bearing of the target Although Hamburg and similar devices like Madrid were essentially complete the work of mating them to a missile had not been carried out by the time the war ended 9 In the immediate post war era Allied military intelligence teams collected this information along with many of the engineers working on these projects Several lengthy reports on the various systems were produced and disseminated among the western aircraft firms while a number of the engineers joined these companies to work on various missile projects By the late 1940s a wide variety of missile projects were underway from huge systems like the Bell Bomi rocket powered bomber to small systems like air to air missiles By the early 1950s both the US Air Force and Royal Air Force had started major IR seeker missile projects 9 A F 104 Starfighter test firing an AIM 9 Sidewinder against a QF 80 target drone at China Lake The development of the Sidewinder missile began in 1946 at the Naval Ordnance Test Station NOTS Inyokern California now the Naval Air Weapons Station China Lake as an in house research project conceived by William B McLean McLean initially called his effort Local Fuze Project 602 using laboratory funding volunteer help and fuze funding to develop what they called a heat homing rocket The name Sidewinder was selected in 1950 and is the common name of Crotalus cerastes a rattlesnake which uses infrared sensory organs to hunt warm blooded prey 10 11 It did not receive official funding until 1951 when the effort was mature enough to show to Admiral William Deak Parsons the Deputy Chief of the Bureau of Ordnance BuOrd It subsequently received designation as a program in 1952 Originally called the Sidewinder 1 the first live firing was on 3 September 1952 The missile intercepted a drone for the first time on 11 September 1953 The missile carried out 51 guided flights in 1954 and in 1955 production was authorized 10 In 1954 the US Air Force carried out trials with the original AIM 9A and the improved AIM 9B at the Holloman Air Development Center The first operational use of the missile was by Grumman F9F 8 Cougars and FJ 3 Furies of the United States Navy in the middle of 1956 10 First Generation Rear Aspect Variants Edit Nearly 100 000 of the first generation AIM 9B C D E of the Sidewinder were produced with Raytheon and General Electric as major sub contractors Philco Ford produced the guidance and control sections of the early missiles The NATO version of the first generation missile was built under license in Germany by Bodenseewerk Geratetechnik 9 200 examples were built 10 Combat debut Taiwan Strait 1958 Edit The first combat use of the Sidewinder was on 24 September 1958 with the Republic of China Taiwan Air Force during the Second Taiwan Strait Crisis During that period of time ROCAF North American F 86 Sabres were routinely engaged in air battles with the People s Republic of China over the Taiwan Strait The PRC MiG 17s had higher altitude ceiling performance and in similar fashion to Korean War encounters between the F 86 and earlier MiG 15 the PRC formations cruised above the ROC Sabres immune to their 50 cal weaponry and only choosing battle when conditions favored them 12 In a highly secret effort the United States provided a few dozen Sidewinders to ROC forces and an Aviation Ordnance Team from the U S Marine Corps to modify their aircraft to carry the Sidewinder In the first encounter on 24 September 1958 the Sidewinders were used to ambush the MiG 17s as they flew past the Sabres thinking they were invulnerable to attack The MiGs broke formation and descended to the altitude of the Sabres in swirling dogfights This action marked the first successful use of air to air missiles in combat the downed MiGs being their first casualties 12 During the Taiwan Strait battles of 1958 a ROCAF AIM 9B hit a PLAAF MiG 17 without exploding the missile lodged in the airframe of the MiG and allowed the pilot to bring both plane and missile back to base Soviet engineers later said that the captured Sidewinder served as a university course in missile design and substantially improved Soviet air to air capabilities 13 They were able to reverse engineer a copy of the Sidewinder which was manufactured as the Vympel K 13 R 3S missile NATO reporting name AA 2 Atoll The Vympel K 13 entered service with Soviet air forces in 1960 14 Vietnam War service 1965 1973 Edit Performance of the 454 Sidewinders launched 15 during the war was not as satisfactory as hoped Both the USN and USAF studied the performance of their aircrews aircraft weapons training and supporting infrastructure The USAF conducted the classified Red Baron Report while the Navy conducted a study concentrating primarily on performance of air to air weapons that was informally known as the Ault Report The impact of both studies resulted in modifications to the Sidewinder by both services to improve its performance and reliability in the demanding air to air arena 16 AIM 9D armed F 4B of VF 111 on USS Coral Sea Vietnam War AIM 9 claimed aerial combat kills Edit USN AIM 9 Sidewinder aerial combat kills 17 Missile firing aircraft AIM 9 Sidewinder model Type Aircraft downed CommentsF 8E Crusader AIM 9D 1 MiG 21 9 MiG 17s US fighters launched from US aircraft carriers USS Hancock USS Oriskany USS Bon Homme Richard USS TiconderogaF 8C AIM 9D 3 MiG 17s 1 MiG 21 US fighters launched from USS Bon Homme Richard and USS IntrepidF 8H AIM 9D 2 MiG 21s US fighters launched from USS Bon Homme RichardF 4B Phantom II AIM 9D 2 MiG 17s 2 MiG 21s US fighters launched from USS Constellation and USS Kitty HawkF 4J AIM 9D 2 MiG 21s US fighters launched from USS America and USS ConstellationF 4B AIM 9B 1 MiG 17 US fighters launched from USS Kitty HawkF 4B AIM 9D 7 MiG 17s 2 MiG 19s Fighters launched from USS Coral Sea and USS MidwayF 4J AIM 9G 7 MiG 17s 7 MiG 21s Fighters launched from USS Enterprise USS America USS Saratoga USS Constellation USS Kitty HawkTotal MiG 17s 29Total MiG 21s 15Total MiG 19s 2USN Total 46USAF AIM 9 Sidewinder aerial combat kills 17 Missile firing aircraft AIM 9 Sidewinder model type Aircraft downed CommentsF 4C AIM 9B 13 MiG 17s 9 MiG 21s USAF 45th Tactical Fighter Squadron TFS 389th TFS 390th TFS 433rd TFS 480th TFS 555th TFSF 105D Thunderchief AIM 9B 3 MiG 17s 333rd TFS 469th TFSF 4D AIM 9E 2 MiG 21s 13th 469th TFSF 4E AIM 9E 4 MiG 21s 13th TFS 34th TFS 35th TFS 469th TFSF 4D AIM 9J 2 MiG 19s 1 MiG 21 523rd TFS 555th TFSTotal MiG 17s 16Total MiG 21s 16Total MiG 19s 2USAF Total 34In total 452 Sidewinders were fired during the Vietnam War resulting in a kill probability of 0 18 18 Pre all aspect variants 19 6 Subtype AIM 9B AIM 9D AIM 9E AIM 9G AIM 9H AIM 9JService Joint USN USAF USN USN USAFSeeker design featuresOrigin Naval Weapons Center AIM 9B AIM 9B AIM 9D AIM 9G AIM 9EDetector PbS PbS PbS PbS PbS PbSCooling Uncooled Nitrogen Peltier Nitrogen Nitrogen PeltierDome window Glass MgF2 MgF2 MgF2 MgF2 MgF2Reticle speed Hz 70 125 100 125 125 100Modulation AM AM AM AM AM AMTrack rate s 8 0 11 0 20 12 0 16 5 12 0 20 0 20 16 5Electronics thermionic thermionic hybrid thermionic solid state hybridWarhead 4 5 kg 9 9 lb blast fragmentation 11 kg 24 lb Mk 48 continuous rod 4 5 kg 9 9 lb blast fragmentation 11 kg 24 lb Mk 48 continuous rod 11 kg 24 lb Mk 48 continuous rod 4 5 kg 9 9 lb blast fragmentationFuze Passive IR Passive IR HF Passive IR Passive IR HF Passive IR HF Passive IRPowerplantManufacturer Thiokol Hercules Thiokol Hercules Hercules Bermite Hercules AerojetType Mk 17 Mk 36 Mk 17 Mk 36 Mk 36 Mod 5 6 7 Mk 17Launcher Aero III LAU 7A Aero III LAU 7A LAU 7A Aero IIIMissile dimensionsLength 2 82 m 9 3 ft 2 86 m 9 4 ft 3 m 9 8 ft 2 86 m 9 4 ft 2 86 m 9 4 ft 3 m 9 8 ft Span 0 55 m 1 8 ft 0 62 m 2 0 ft 0 55 m 1 8 ft 0 62 m 2 0 ft 0 62 m 2 0 ft 0 58 m 1 9 ft Weight 70 39 kg 155 2 lb 88 5 kg 195 lb 74 5 kg 164 lb 87 kg 192 lb 84 5 kg 186 lb 77 kg 170 lb Note the speed of the B model was around 1 7 Mach and the other models above 2 5 Later Generation All aspect variants Edit AIM 9L Edit AIM 9L Captive air training missile with part section in blue color denoting inert warhead and rocket motor for training purposes The next major advance in IR Sidewinder development was the AIM 9L Lima model which was in full production in 1977 19 21 This was the first all aspect Sidewinder with the ability to attack from all directions including head on which had a dramatic effect on close in combat tactics Its first combat use was by a pair of US Navy F 14s in the Gulf of Sidra in 1981 versus two Libyan Sukhoi Su 22s both of the latter being destroyed by AIM 9Ls Its first use in a large scale conflict was by the United Kingdom during the 1982 Falklands War In this campaign the Lima reportedly achieved kills from 80 of launches a dramatic improvement over the 10 15 levels of earlier versions scoring 17 kills and 2 shared kills against Argentine aircraft 22 AIM 9M Edit The AIM 9M is an improved AIM 9L having better background rejection and infrared countermeasures discrimination and a low smoke motor to reduce the visual signature of the weapon Deployed in large numbers during the 1991 Gulf War the AIM 9M was responsible for all 10 Sidewinder kills recorded during that conflict citation needed BOA Box Office Edit China Lake developed an improved compressed carriage control configuration titled BOA Compressed carriage missiles have smaller control surfaces to allow more missiles to fit in a given space 23 The surfaces may be permanently clipped or may fold out when the missile is launched AIM 9X Edit Hughes Electronics was awarded a contract for development of the AIM 9X Sidewinder in 1996 after a competition against Raytheon for the next short range aerial combat missile 24 though Raytheon purchased the defense portions of Hughes Electronics the following year 25 The AIM 9X entered service in November 2003 with the USAF the lead platform was the F 15C and the USN the lead platform was the F A 18C and is a substantial upgrade to the Sidewinder family featuring an imaging infrared focal plane array FPA seeker with claimed 90 off boresight capability compatibility with helmet mounted displays such as the new U S Joint Helmet Mounted Cueing System JHMCS and a totally new two axis thrust vectoring control TVC system providing increased turn capability over traditional control surfaces 60Gs Utilizing the JHMCS a pilot can point the AIM 9X missile s seeker and lock on by simply looking at a target thereby increasing air combat effectiveness 26 It retains the same rocket motor fuze and warhead of the AIM 9M but its lower drag gives it improved range and speed 27 The AIM 9X also includes an internal cooling system eliminating the need for use of launch rail nitrogen bottles U S Navy and Marines or internal argon bottles USAF It also features an electronic safe and arm device similar to the AMRAAM allowing for a reduction in minimum range and reprogrammable infrared Counter Counter Measures IRCCM capability that coupled with the FPA provides improved look down into clutter and performance against the latest IRCM Though not part of the original requirement the AIM 9X demonstrated potential for lock on after launch capability allowing for possible internal use for the F 35 F 22 Raptor and even in a submarine launched configuration for use against ASW platforms 28 The AIM 9X has been tested for a surface attack capability with mixed results 29 Block II Edit Testing work on the AIM 9X Block II version began in September 2008 30 The Block II adds lock on after launch capability with a datalink so the missile can be launched first and then directed to its target afterwards by an aircraft with the proper equipment for 360 degree engagements such as the F 35 or the F 22 31 By January 2013 the AIM 9X Block II was about halfway through its operational testing and performing better than expected NAVAIR reported that the missile was exceeding performance requirements in all areas including lock on after launch LOAL One area where the Block II needs improvement is helmetless high off boresight HHOBS performance It is functioning well on the missile but performance is below that of the Block I AIM 9X The HHOBS deficiency does not impact any other Block II capabilities and is planned to be improved upon by a software clean up build Objectives of the operational test were due to be completed by the third quarter of 2013 32 However as of May 2014 there have been plans to resume operational testing and evaluation including surface to air missile system compatibility 33 As of June 2013 update Raytheon had delivered 5 000 AIM 9X missiles to the armed services 34 On 18 June 2017 after an AIM 9X did not successfully track a targeted Syrian Air Force Su 22 Fitter US Navy Lt Cmdr Michael Mob Tremel flying a F A 18E Super Hornet used an AMRAAM AAM to successfully destroy the enemy aircraft 35 There is a theory that the Sidewinder is tested against American and not Soviet Russian flares The Sidewinder is used to rejecting American but not Soviet Russian flares Similar issues arose from the testing of the AIM 9P model The missile would ignore American flares but go for Soviet ones due to these flares have different burn time intensity and separation 36 37 In February 2015 the U S Army successfully launched an AIM 9X Block II from the new Multi Mission Launcher MML a truck mounted missile launch container that can hold 15 of the missiles The MML is part of the Indirect Fire Protection Capability Increment 2 Intercept IFPC Inc 2 I to protect ground forces against cruise missile and unmanned aerial vehicle threats The AIM 9X Block II has been determined by the Army to be the best solution to cruise missile and UAV threats because of its passive imaging infrared seeker The MML will complement the AN TWQ 1 Avenger air defense system and is expected to begin fielding in 2019 38 needs update Block III Edit In September 2012 Raytheon was ordered to continue developing the Sidewinder into a Block III variant even though the Block II had not yet entered service The USN projected that the new missile would have a 60 percent longer range modern components to replace old ones and an insensitive munitions warhead which is more stable and less likely to detonate by accident making it safer for ground crews The need for the AIM 9 to have an increased range was caused by digital radio frequency memory DRFM jammers that can blind the onboard radar of an AIM 120D AMRAAM so the Sidewinder Block III s passive imaging infrared homing guidance system was seen as a useful alternative Although it could supplement the AMRAAM for beyond visual range BVR engagements it would still be capable of performing within visual range WVR Modifying the AIM 9X was seen as a cost effective alternative to developing a new missile in a time of declining budgets To achieve the range increase the rocket motor would have a combination of increased performance and missile power management The Block III would leverage the Block II s guidance unit and electronics including the AMRAAM derived datalink The Block III was scheduled to achieve initial operational capability IOC in 2022 following the increased number of F 35 Lightning II Joint Strike Fighters to enter service 39 40 The Navy pressed for this upgrade in response to a projected threat which analysts have speculated will be due to the difficulty of targeting upcoming Chinese fifth generation jet fighters Chengdu J 20 Shenyang J 31 with the radar guided AMRAAM 41 specifically that Chinese advances in electronics will mean Chinese fighters will use their AESA radars as jammers to degrade the AIM 120 s kill probability 42 However the Navy s FY 2016 budget canceled the AIM 9X Block III as they cut down buys of the F 35C as it was primarily intended to permit the fighter to carry six BVR missiles the insensitive munition warhead will be retained for the AIM 9X program 43 All aspect variants 19 Subtype AIM 9L AIM 9M AIM 9P 4 5 AIM 9RService Joint Joint USAF export USNSeeker design featuresOrigin AIM 9H AIM 9L AIM 9J N AIM 9MDetector InSb InSb InSb Focal plane arrayCooling Argon Argon Argon Dome window MgF2 MgF2 MgF2 GlassReticle speed Hz 125 125 100 Focal plane arrayModulation FM FM FM Focal plane arrayTrack rate s 22 44 Classified gt 16 5 ClassifiedElectronics Solid state Solid state Solid state Solid stateWarhead 9 4 kg 21 lb WDU 17 B annular blast fragmentation 9 4 kg 21 lb WDU 17 B annular blast fragmentation Annular blast fragmentation Annular blast fragmentationFuze IR Laser IR Laser IR Laser IR LaserPowerplantManufacturer Hercules Bermite MTI Hercules Hercules Aerojet MTI HerculesType Mk 36 Mod 7 8 Mk 36 Mod 9 SR 116 Mk 36 Mod 9Launcher Common Common Common CommonMissile dimensionsLength 2 89 m 9 5 ft 2 89 m 9 5 ft 3 m 9 8 ft 2 89 m 9 5 ft Span 0 64 m 2 1 ft 0 64 m 2 1 ft 0 58 m 1 9 ft 0 64 m 2 1 ft Weight 86 kg 190 lb 86 kg 190 lb 86 kg 190 lb 86 kg 190 lb 2023 North American balloon amp unidentified object shootdowns Edit On 4 February 2023 an F 22 Raptor operated by the United States Air Force used a single AIM 9X missile to shoot down a suspected Chinese spy balloon off the coast of Surfside Beach South Carolina at an altitude between 60 000 to 65 000 feet 18 000 to 20 000 m 45 46 Six days later another object was shot down near Alaska 47 On 11 and 12 February two more objects were shot down over Yukon Canada and Lake Huron in Michigan respectively 48 49 50 Sidewinder descendants EditAnti tank variant Edit Experimental use of an AIM 9L against tanks at China Lake 1971 Naval Air Weapons Station China Lake experimented with Sidewinders in the air to ground mode including use as an anti tank weapon Starting from 2008 the AIM 9X demonstrated its ability as a successful light air to ground missile 51 In 2016 Diehl closed a deal with the Federal Office of Bundeswehr Equipment Information Technology and In Service Support to develop a laser guided Air To Ground variant of the Sidewinder missile based on the AIM 9L variant In testing with the Swedish Defence Materiel Administration a Saab Gripen could hit one stationary and two moving targets 52 On 28 February 2018 the Iranian Islamic Revolutionary Guard Corps unveiled an anti tank derivative of the Sidewinder missile named Azarakhsh intended for use by Bell AH 1J SeaCobra attack helicopters 53 Later developments EditLarger rocket motor Edit Under the High Altitude Project engineers at China Lake mated a Sidewinder warhead and seeker to a Sparrow rocket motor to experiment with usefulness of a larger motor 54 Other ground launch platforms Edit In 2016 the AIM 9X was test fired from a Multi Mission Launcher at the White Sands Missile Range in New Mexico USA 55 During testing with the MML the AIM 9X experienced issues with overheating These issues have since been resolved 56 In September 2021 the U S Army signed a contract with Dynetics to build prototypes for its Indirect Fires Protection Capability IFPC utilizing an MML based launcher firing the Sidewinder to counter UAVs and cruise missiles It is planned to be put into service in 2023 57 In May 2019 the AIM 9X Block II was test fired from the National Advanced Surface to Air Missile System NASAMS at the Andoya Space Center in Norway 58 Operators EditCurrent operators Edit Argentina AIM 9L M Australia 59 60 Belgium 60 Bahrain 61 Brazil Canada Chile Czech Republic 62 Denmark 60 Egypt 63 Ethiopia Finland 64 60 Hungary Greece 65 Indonesia 66 Iran 67 Iraq 68 Israel 69 Italy Japan 60 Jordan 63 Kenya Kuwait 60 Malaysia 60 Morocco 70 Netherlands 60 Norway 60 Oman 60 Pakistan 71 Philippines 72 73 Poland 74 Portugal 75 76 AIM 9B J P L M 9X Block II Qatar Romania 60 Saudi Arabia 77 60 Singapore 78 60 South Korea 60 Republic of China Taiwan 60 Sweden Switzerland 60 Thailand 79 Turkey 80 60 Tunisia United States 60 UAE 60 Venezuela 81 Yemen Former operators Edit Austria France 82 Germany Mexico New Zealand North Yemen 83 South Africa 84 South Vietnam Spain 85 United Kingdom Yugoslavia Zimbabwe Please note that this list is not definitive See also Edit1963 United States Tri Service rocket and guided missile designation systemRelated development AGM 87 Focus Diamondback a proposed enlarged nuclear armed version of Sidewinder PL 2 a Chinese derivative of the K 13 AA 2 Atoll MIM 72 Chaparral Sidewinder ArcasRelated lists List of missilesComparable missiles Edit ASRAAM A Darter IRIS T MAA 1 Piranha MICA R 550 Magic Red Top Firestreak PL 9 Python 5 R 60 R 73 Shafrir Fatter AAM 1 3 5References EditNotes Edit Citations Edit a b c d e f g Sea Power January 2006 Wittman Amy Atkinson Peter Burgess Rick eds Air to Air Missiles Sea Power Arlington Virginia Navy League of the United States 49 1 95 96 ISSN 0199 1337 Department of Defense Fiscal Year FY 2021 Budget Estimates PDF US Navy February 2020 p 105 Archived from the original PDF on 19 December 2020 Retrieved 11 January 2023 Babcock Elizabeth September 1999 Sidewinder Invention and Early Years The China Lake Museum Foundation The Air Force subsequently procured Sidewinder AIM 9B missiles for its hottest tactical and strategic aircraft p 21 Military Technology August 2008 News Flash World Defence Almanac The Balance of Military Power Heilsbachstrasse 26 53123 Bonn Germany Monch Publishing Group 32 8 93 96 ISSN 0722 3226 Alliant Techsystems and RUAG Aerospace have signed a teaming agreement to provide full service and upgrade support of the AIM 9P 3 4 5 Sidewinder family of IR guided short range air to air missiles a href Template Cite journal html title Template Cite journal cite journal a CS1 maint location link Air Weapons Beyond Sidewinder www strategypage com Archived from the original on 3 February 2010 Retrieved 2 February 2010 a b Raytheon AIM 9 Sidewinder www designation systems net Archived from the original on 9 February 2010 Retrieved 2 February 2010 April 9 2004 416th Flight Test Squadron Test Fires AIM 9X for the First Time From an F 16 Air Force Test Center United States Air Force Retrieved 7 January 2022 Echo locating bats as they pursue flying insects also adopt such a strategy see this PLoS Biology report Ghose K Horiuchi T K Krishnaprasad P S Moss C F 18 April 2006 Echo locating Bats Use a Nearly Time Optimal Strategy to Intercept Prey PLOS Biology 4 5 e108 doi 10 1371 journal pbio 0040108 PMC 1436025 PMID 16605303 a b Kutzscher Edgar 1957 The Physical and Technical Development of Infrared Homing Devices In Benecke T Quick A eds History of German Guided Missiles Development NATO Archived from the original on 30 September 2015 Retrieved 20 October 2015 a b c d Tom Hildreth March April 1988 The Sidewinder Missile Air Britain Digest 40 2 39 40 ISSN 0950 7434 U S Naval Museum of Armament amp Technology Archived from the original on 23 September 2015 Retrieved 26 March 2015 a b Sidewinder AIM 9 US Naval Academy 2012 Archived from the original on 2 July 2018 Retrieved 21 November 2017 Secret City A history of the Navy at China Lake OCLC 851089182 Hollings Alex 21 March 2021 The Almost Unbelievable True Story of the Sidewinder Missile Popular Mechanics Hearst Magazines Retrieved 7 January 2022 Michel III p 287 Young James Freedom s Flying Snake The AIM 9 Sidewinder in The Cold War Marine Corps University United States Marine Corps Retrieved 7 January 2022 a b McCarthy Jr p 148 157 Friedman Norman 1989 The Naval Institute Guide to World Naval Weapon Systems Annapolis Maryland Naval Institute Press p 439 ISBN 978 1 55750 262 9 a b c Carlo Kopp 1 April 1994 The Sidewinder Story The Evolution of the AIM 9 Missile Australian Aviation 1994 April Archived from the original on 17 December 2006 Retrieved 4 January 2007 a b NAVAIR 01 245FDB 1T Tactical Manual F 4B J N September 1972 Bonds 1989 p 229 F 16 Armament AIM 9 Sidewinder Archived from the original on 25 March 2015 Retrieved 26 March 2015 http handle dtic mil 100 2 ADP010957 permanent dead link Bloomberg News 16 December 1996 Hughes Electronics Wins Missile Contract The New York Times ISSN 0362 4331 Retrieved 12 July 2021 PELTZ JAMES F 17 January 1997 Raytheon Acquires Hughes Wing in 9 5 Billion Deal Los Angeles Times Retrieved 12 July 2021 Doty Steven R 29 February 2008 Kunsan pilots improve capability with AIM 9X missile Air Force Link Archived from the original on 2 March 2008 Retrieved 29 February 2008 Sweetman Bill Warming trend Aviation Week and Space Technology July 8 2013 p 26 Successful Test of an AIM 9X Missile by a Raytheon Led Team Demonstrates Potential for Low Cost Solution in Littoral Joint Battlespace 29 September 2007 Archived from the original on 29 September 2007 Retrieved 25 August 2020 Raytheon AIM 9X Block II Air Air Missile Archived 2011 09 26 at the Wayback Machine Defense Update 20 September 2011 Raytheon AIM 9X Block II Missile Completes First Captive Carry Flight Raytheon 18 September 2008 Retrieved 2 November 2018 Raytheon AIM 9X Block II Missile Completes First Captive Carry Flight Archived from the original on 8 October 2014 Retrieved 26 March 2015 AIM 9X Block II performing better than expected Archived 2013 02 03 at the Wayback Machine Flightglobal com January 28 2013 David C Isby May 2014 AIM 9X Block II resumes IOT amp E Jane s International Defence Review 47 16 ISSN 2048 3449 Raytheon Delivers 5 000th AIM 9X Sidewinder Air to Air Missile Archived 2014 03 07 at the Wayback Machine Deagel com 15 June 2013 Ziezulewicz Geoff 10 September 2018 The inside story of how a US Navy pilot shot down a Syrian jet Navy Times Retrieved 11 February 2023 KYLE MIZOKAMI 27 June 2017 How Did a 30 Year Old Jet Dodge the Pentagon s Latest Missile Popular Mechanics Retrieved 10 March 2023 DAVE MAJUMDAR 26 June 2017 Why America s Mighty Military Doesn t Always Dominate The Battlefield Task and Purpose Retrieved 10 March 2023 New Launcher to Deploy C RAM C UAV and Counter Cruise Missile Defenses by 2019 Archived 2015 07 09 at the Wayback Machine Defense Update com 28 March 2015 US Navy hopes to increase AIM 9X range by 60 Archived 2013 07 21 at the Wayback Machine Flightglobal com 18 July 2013 New Sidewinder Tweaks Archived 2012 09 07 at the Wayback Machine Strategypage com September 5 2012 Sweetman Bill 19 June 2013 Raytheon Looks At Options For Long Range AIM 9 Aviation Week Archived from the original on 21 February 2014 Retrieved 23 June 2013 Sweetman Bill Warming Trend Aviation Week and Space Technology July 8 2013 p 26 F 35Cs Cut Back As U S Navy Invests In Standoff Weapons Archived 2015 02 05 at the Wayback Machine Aviationweek com 3 February 2015 CD101B 0901 amp 2 15D Supplement to Phantom FG 1 amp FGR 2 Aircrew Manual Weapon System 1977 amp 1980 Radar Modification Standards Borger Julian 4 February 2023 US shoots down suspected Chinese spy balloon over east coast theguardian com Retrieved 5 February 2023 Cooper Helene Wong Edward 4 February 2023 U S Shoots Down Chinese Spy Balloon Off the Coast of the Carolinas The New York Times ISSN 0362 4331 Retrieved 4 February 2023 Epstein Jake After nearly 2 decades in service the F 22 has its first air to air kills neither against the jets it was designed to fight Business Insider Retrieved 11 February 2023 Statement on Today s Actions by North American Aerospace Defense Command Press release U S Department of Defense 12 February 2023 Retrieved 12 February 2023 Cooper Helene 12 February 2023 U S Shoots Down a Fourth Flying Object The New York Times Retrieved 12 February 2023 US jets shoot down third unmanned aircraft within a week this time over Canada USA Today Retrieved 12 February 2023 AIM 9X Sidewinder demonstrates Air To Surface capability Archived from the original on 28 September 2013 Retrieved 26 March 2015 Heiming Gerhard Laser gelenkte Lenkrakete Sidewinder fur den Luft Boden Einsatz ESuT Retrieved 13 May 2021 Iran s New Anti Tank Missile Looks Awfully Familiar Popular Mechanics 1 March 2018 Archived from the original on 3 August 2020 Retrieved 4 February 2021 1970 China Lake Photo Gallery www chinalakealumni org Archived from the original on 10 June 2018 Retrieved 22 February 2018 Collins Boyd U S Army successfully fires AIM 9X missile from new interceptor launch platform www army mil United States Army Archived from the original on 20 June 2019 Retrieved 20 June 2019 Judson Jen 4 June 2021 Dynetics unveils Enduring Shield its solution for the US Army to counter cruise missiles www defensenews com Defense News Retrieved 5 June 2021 US Army mints deal with Dynetics to build system to counter drones and cruise missiles Defense News 24 September 2021 Reichmann Kelsey 19 June 2019 Norway s Air Force tests Sidewinder missile defensenews com Defense News Retrieved 20 June 2019 La Franchi Peter 27 March 2007 Australia confirms AIM 9X selection for Super Hornets Flight International Archived from the original on 7 September 2008 Retrieved 20 April 2011 a b c d e f g h i j k l m n o p q r s Jennings Gareth Norway and Taiwan join AIM 9X Block II user community IHS Jane s 360 IHS Jane s 360 London Archived from the original on 5 July 2016 Retrieved 4 July 2016 Bahraini F 16C Block 40 101 armed with 4 AIM 9 Sidewinder missiles on a desert airfield This aircraft was the first F 16 delivered to the RBAF RBAF photo F 16 net Retrieved 22 February 2022 International Market Research Defense Trade Guide Update 2003 13 October 2007 Archived from the original on 13 October 2007 a b Cooper 2018 p V Finland Ordering 150 AIM 9X Sidewinders Archived from the original on 2 September 2006 Retrieved 12 September 2006 Newdick Thomas 3 September 2020 Face Off Over The Aegean How Greek And Turkish Air Forces Stack Up The Drive Retrieved 18 February 2022 Two Indonesian vipers fully armed with 4x AIM 9 and 2x AGM 65 missiles flying low 200 ft over Gulf Of Popoh South of East Java Province Photo by Capt Agung Sharky Sasongkojati F 16 net Retrieved 22 February 2022 Taking On Iran s Air Force Defense Tech 17 May 2006 Archived from the original on 12 June 2015 Retrieved 26 March 2015 Rogoway Tyler 19 April 2018 Now Iraq Has Started Bombing Syria Too Updated The Drive Retrieved 18 February 2022 An IDF AF viper banking over the Golan heights armed with 2 JDAMs 2 Python 5 and 2 Sidewinder missiles IDF AF photo F 16 net Retrieved 22 February 2022 Cooper 2018 p IV Chenel Liebert amp Moreau 2014 p 156 PH completes inspection of Raytheon for FA 50 s air to air missiles Update Philippines 18 July 2017 Archived from the original on 7 November 2017 Retrieved 1 November 2017 US State Department Approves Harpoon and AIM 9X for Philippines global defense corp Retrieved 15 July 2021 Trevithick Joseph 4 February 2022 These Photos Of Armed NATO F 16s Patrolling Over The Baltics Are Absolutely Incredible The Drive Retrieved 18 February 2022 PoAF F 16A 15117 armed with four AIM 9 Sidewinders refueling from a USAF tanker USAF photo F 16 net Retrieved 22 February 2022 Portuguese Air Force Joining AIM 9X Block II Sidewinder Air to air Missile Operators Group 11 November 2022 Retrieved 12 January 2023 150 AIM 9 Sidewinder Missiles for Saudi Arabia Archived from the original on 2 September 2006 Retrieved 12 September 2006 SIPRI arms transfer database Stockholm International Peace Research Institute 19 March 2012 Archived from the original on 29 December 2017 Retrieved 27 April 2012 Thailand KongTup Arkard Thai Royal Thai Air Force RTAF F 16 net Turkey Buys 127 AIM 9X Sidewinder Missiles Archived from the original on 2 September 2006 Retrieved 12 September 2006 Venezuela Fuerza Aerea Venezolana Venezuelan Air Force FAV F 16 net Chenel Liebert amp Moreau 2014 p 363 Cooper 2017 p 40 AIM 9B Sidewinder South African Air Force Association Archived from the original on 27 June 2008 Retrieved 4 August 2008 Chenel Liebert amp Moreau 2014 p 225 Bibliography Edit Babcock Elizabeth 1999 Sidewinder Invention and Early Years The China Lake Museum Foundation 26 pp A concise record of the development of the original Sidewinder version and the central people involved in its design Bonds Ray ed The Modern US War Machine New York City Crown Publishers 1989 ISBN 0 517 68802 6 Bonds Ray and David Miller 2002 AIM 9 Sidewinder Illustrated Directory of Modern American Weapons Zenith Imprint ISBN 978 0 7603 1346 6 Chenel Bernard Liebert Michel Moreau Eric 2014 Mirage III 5 50 en service a l etranger Le Vigen France Editions LELA Presse ISBN 978 2 914017 76 3 Clancy Tom 1996 Ordnance How Bombs Got Smart Fighter Wing London HarperCollins 1995 ISBN 978 0 00 255527 2 Cooper Tom 2017 Hot Skies Over Yemen Volume 1 Aerial Warfare Over the Southern Arabian Peninsula 1962 1994 Solihull UK Helion amp Company Publishing ISBN 978 1 912174 23 2 Cooper Tom 2018 Hot Skies Over Yemen Volume 2 Aerial Warfare Over the Southern Arabian Peninsula 1994 2017 Warwick UK Helion amp Company Publishing ISBN 978 1 911628 18 7 Doty Steven R 29 February 2008 Kunsan pilots improve capability with AIM 9X missile Air Force Link Archived from the original on 2 March 2008 Retrieved 29 February 2008 McCarthy Donald J Jr MiG Killers A Chronology of U S Air Victories in Vietnam 1965 1973 2009 Specialty Press North Branch MN U S A ISBN 978 1 58007 136 9 Michel III Marshall L Clashes Air Combat Over North Vietnam 1965 1972 1997 ISBN 978 1 59114 519 6 Westrum Ron 1999 Sidewinder Creative missile development at China Lake Naval Institute Press ISBN 978 1 55750 951 2External links Edit Wikimedia Commons has media related to AIM 9 Sidewinder Official website Defense Industry Daily AIM 9X Block II The New Sidewinder Missile Encyclopaedia Britannica Raytheon AAM N 7 GAR 8 AIM 9 Sidewinder Designation Systems The Sidewinder Story Sidewinder at Howstuffworks com NAMMO Raufoss Nordic Ammunition Company F 15As launching AIM 9 Sidewinders at QF 4 on YouTube Rolleron demonstration on YouTube Fox Two from Aviation History magazine March 2013 Includes photos amp video Italy signs up for Aim 9x Retrieved from https en wikipedia org w index php title AIM 9 Sidewinder amp oldid 1152028576, wikipedia, wiki, book, books, library,

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