Meteor Missile
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The Meteor is a European active radar guided beyond-visual-range
air-to-air missile The newest and the oldest member of Rafael's Python family of AAM for comparisons, Python-5 (displayed lower-front) and Shafrir-1 (upper-back) An air-to-air missile (AAM) is a missile fired from an aircraft for the purpose of destroying a ...
(BVRAAM) developed and manufactured by MBDA. It offers a multi-shot capability (multiple launches against multiple targets), and has the ability to engage highly maneuverable targets, such as jets, and small targets such as UAVs and cruise missiles in a heavy
electronic countermeasures An electronic countermeasure (ECM) is an electrical or electronic device designed to trick or deceive radar, sonar, or other detection systems, like infrared (IR) or lasers. It may be used both offensively and defensively to deny targeting info ...
(ECM) environment with a range far in excess of . A solid-fueled
ramjet A ramjet, or athodyd (aero thermodynamic duct), is a form of airbreathing jet engine that uses the forward motion of the engine to produce thrust. Since it produces no thrust when stationary (no ram air) ramjet-powered vehicles require an ass ...
motor allows the missile to cruise at a speed of over Mach 4 and provides the missile with thrust and mid-course acceleration to target intercept. A two-way datalink enables the launch aircraft to provide mid-course target updates or retargeting if required, including data from off-board third parties. The datalink is capable of transmitting missile information such as functional and kinematic status, information about multiple targets, and notification of target acquisition by the seeker. According to MBDA, Meteor has three to six times the kinetic performance of current air-to-air missiles of its type. In addition to this, the missile is also equipped with both proximity and impact fuses to maximise destructive effects and reliability. The fruit of a joint European project, Meteor missiles first entered service on the Swedish Air Force's JAS 39 Gripens in April 2016 and officially achieved initial operating capability (IOC) in July 2016. They also equip the
French Air Force The French Air and Space Force (AAE) (french: Armée de l'air et de l'espace, ) is the air and space force of the French Armed Forces. It was the first military aviation force in history, formed in 1909 as the , a service arm of the French Army; ...
and
Navy A navy, naval force, or maritime force is the branch of a nation's armed forces principally designated for naval warfare, naval and amphibious warfare; namely, lake-borne, riverine, littoral zone, littoral, or ocean-borne combat operations and ...
's Dassault Rafale as well as the Eurofighter Typhoons of the
Royal Air Force The Royal Air Force (RAF) is the United Kingdom's air and space force. It was formed towards the end of the First World War on 1 April 1918, becoming the first independent air force in the world, by regrouping the Royal Flying Corps (RFC) and ...
,
German Air Force The German Air Force (german: Luftwaffe, lit=air weapon or air arm, ) is the aerial warfare branch of the , the armed forces of Germany. The German Air Force (as part of the ''Bundeswehr'') was founded in 1956 during the era of the Cold War a ...
,
Italian Air Force , colours = , colours_label = , march = (Ordinance March of the Air Force) by Alberto Di Miniello , mascot = , anniversaries = 28 March ...
and
Spanish Air Force , colours = , colours_label = , march = Spanish Air and Space Force Anthem , mascot = , anniversaries = 10 December , equipment ...
. The Meteor is also intended to equip British and Italian F-35 Lightning IIs and has been exported to various customers of the Rafale, Typhoon and Gripen.


History


Requirement

Meteor was selected in competition to meet the UK's Staff Requirement (Air) 1239 (SR(A)1239), for a Future Medium Range Air-to-Air Missile ( FMRAAM) to replace the RAF's BAe Dynamics Skyflash missiles. As the primary air-to-air armament of Eurofighter, the missile would be used against a range of fixed- and rotary-wing targets including
unmanned aerial vehicle An unmanned aerial vehicle (UAV), commonly known as a drone, is an aircraft without any human pilot, crew, or passengers on board. UAVs are a component of an unmanned aircraft system (UAS), which includes adding a ground-based controller ...
s and
cruise missile A cruise missile is a guided missile used against terrestrial or naval targets that remains in the atmosphere and flies the major portion of its flight path at approximately constant speed. Cruise missiles are designed to deliver a large warhe ...
s. Although no detailed performance requirements have been publicly released, they were understood to demand launch success and no-escape zones approaching twice that of the then "state-of-the-art" medium-range missile, AMRAAM. The missile external geometry would be constrained by the need for compatibility with Eurofighter's semi-recessed underfuselage launchers which had been designed for AMRAAM. Key features of the requirement included "stealthy launch, enhanced kinematics, which will provide the missile with sufficient energy to chase and destroy a highly agile manoeuvring target, robust performance in countermeasures and the ability for the launch aircraft to fire and disengage at the earliest opportunity thus enhancing aircraft survivability". These requirements were largely shaped by the perceived threat posed by advanced versions of the Russian
Sukhoi Su-27 The Sukhoi Su-27 (russian: Сухой Су-27; NATO reporting name: Flanker) is a Soviet-origin twin-engine supermaneuverable fighter aircraft designed by Sukhoi. It was intended as a direct competitor for the large US fourth-generation jet ...
"Flanker" armed with extended range
ramjet A ramjet, or athodyd (aero thermodynamic duct), is a form of airbreathing jet engine that uses the forward motion of the engine to produce thrust. Since it produces no thrust when stationary (no ram air) ramjet-powered vehicles require an ass ...
powered versions of the R-77 missile. In February 1994 the UK MoD issued a RFI on the possibility of the development of an advanced medium range air-to-air missile. Four concepts were produced in response, all using integrated rocket/ramjet propulsion: *BAe, Alenia Difesa, GEC-Marconi, and Saab Dynamics, proposed the
S225XR S225XR was a wingless, integrated rocket/ramjet powered, active radar-guided medium-range air-to-air missile concept initially proposed by a BAe Dynamics led team to meet the United Kingdom Ministry of Defence's, requirement for a missile to arm ...
*
Matra Matra (an acronym for Mécanique Aviation Traction) was a French industrial conglomerate. During its years of operation, it was engaged in a wide range of business activities, primarily focused around automobiles, bicycles, aeronautics and we ...
proposed a derivative of the
MICA Micas ( ) are a group of silicate minerals whose outstanding physical characteristic is that individual mica crystals can easily be split into extremely thin elastic plates. This characteristic is described as perfect basal cleavage. Mica is ...
, although the long-planned merger of its missile division and BAe Dynamics was expected to lead to the removal of this proposal * Daimler-Benz Aerospace and
Bayern-Chemie MBDA Deutschland GmbH is a German missile systems company. Together with its 100% subsidiaries Bayern-Chemie and TDW and various Joint Ventures, it forms MBDA Germany. The company is a legally independent 100% subsidiary of MBDA which belongs to ...
proposed the Advanced Air-to-Air Missile (A3M) *Hughes, supported by the US Government, proposed an AMRAAM derivative based on upgrade work being carried out. The competition commenced formally in June 1995 against a backdrop of government and industrial contacts between the UK, France, and Germany aimed at establishing a common requirement and an industrial consortium. Even at this early stage the competition was developing into a straight fight between a European and a US offering. The US Government agreed to transfer development of the advanced propulsion system to the UK in support of the Hughes bid, although it was not clear how much of the workshare would be European. Hughes' initial offering was powered by a variable-flow ducted rocket (VFDR). This had been under development by an Atlantic Research Corporation (ARC)/
Alliant Techsystems Alliant Techsystems Inc. (ATK) was an American aerospace, defense, and sporting goods company with its headquarters in Arlington County, Virginia, in the United States. The company operated in 22 states, Puerto Rico, and other countries. ATK's ...
team for ten years but the USAF had no plans at that time to develop an extended range AMRAAM since this could endanger support for the stealthy F-22 Raptor. The team had also provided information to BAe who were considering the VFDR as a powerplant for the S225XR, along with systems from Bayern Chemie and Volvo. ARC had discussions with Royal Ordnance, the only UK company with the necessary capability following Rolls-Royce's decision to stop work on ramjets. The UK MoD issued an Invitation to Tender (ITT) in December 1995. Responses were due in June 1996 for a UK contract valued at £800m. By February 1996 the US team was in place whereas the European effort remained fragmented. Matra and DASA's missile division (LFK), were on the brink of a joint bid, which BAe and Alenia were also considering. The Matra/LFK proposal was based on Matra's MICA-Rustique project using a Matra/ ONERA designed self-regulating solid fuel ramjet. The merger between Matra and BAE's missile businesses had stalled due to the French Government's reluctance to approve the deal without British assurances that the UK would adopt a more pro-European approach to procurement. The merger was concluded in 1996 with the formation of
Matra BAe Dynamics Matra BAe Dynamics was formed in August 1996 by merger of half the missile business of Matra Defense of France and BAe Dynamics (a division of British Aerospace) of the UK and was Europe's largest manufacturer of missiles and UAVs. British Aero ...
(MBD). This was not the only merger in prospect as
Aérospatiale Aérospatiale (), sometimes styled Aerospatiale, was a French state-owned aerospace manufacturer that built both civilian and military aircraft, rockets and satellites. It was originally known as Société nationale industrielle aérospatiale ( ...
and DASA were conducting
due diligence Due diligence is the investigation or exercise of care that a reasonable business or person is normally expected to take before entering into an agreement or contract with another party or an act with a certain standard of care. It can be a l ...
, although Matra had also expressed an interest in the former's missile business. The German government was trying to use the UK and German requirements to forge the consolidation of the European industry into a critical mass capable of engaging the US on more equal terms. Hughes had assembled a team including Aérospatiale (propulsion), Shorts (integration and final assembly), Thomson-Thorn Missile Electronics (TTME), Fokker Special Projects (fin actuation), and Diehl BGT Defence (warhead). Incidentally, the adoption of FMRAAM as the name of Hughes' proposal forced the UK MoD to change the title of SR(A)1239 to BVRAAM. Hughes would provide the seeker, with electronics from its Scottish subsidiary, Hughes Micro Electronics Europa. The upgraded guidance electronics would be compressed compared to the existing AMRAAM. Other changes included: a new electronic, as opposed to the usual mechanical, safe and arm device, based on Diehl BGT Defence's IRIS-T system; a TTME digital target detection device (a two-way conformal microwave proximity fuze unit); and a shortened control and actuation system. The seeker and warhead were basically unchanged from AMRAAM's. The European content of Hughes' bid had been bolstered by the replacement of the ARC/ATK VFDR by an Aérospatiale-Celerg liquid-fuel ramjet with an ARC integrated nozzleless booster. This was based on studies conducted during the Simple Regulation Ramjet programme, which began in 1994. The direct-injection design used an inflatable elastomer bladder within the fuel tank to control the fuel flow and was believed to offer a lower cost approach compared to a regulated liquid ramjet requiring a turbopump and associated fuel supply hardware. Eighty percent of FMRAAM production and development would be carried out in Europe, 72% in the UK. The European team, consisting of BAe Dynamics, Matra Defense, Alenia Difesa, GEC-Marconi, Saab Dynamics, LFK, and Bayern-Chemie was finally assembled just six weeks ahead of 11 June 1996 deadline for bids. BAe brokered an agreement whereby it would lead the team. This tie-up avoided a division in the European attempts to provide a credible alternative to the US bid. Matra and LFK had already teamed and would have bid independently, had BAe's "shuttle diplomacy" failed. BAe Dynamics' original S225XR proposal was a wingless design. However, during the international discussions the evolving UK and German proposals were found to be near identical in concept apart from the latter's wings. The trade-off between winged and wingless configurations was very closely balanced but the wings offered increased roll damping which was believed to be useful given the asymmetric intake configuration so the German A3M configuration was adopted for the European proposal, called Meteor. When the bids went in it was anticipated that a contract would be awarded at the end of 1997 with first deliveries by 2005.


Risk reduction

Following several rounds of bid clarification it was concluded in early 1997 that the risks were too high to proceed directly to development. The UK's
Defence Procurement Agency The Defence Procurement Agency (DPA), was an Executive Agency of the United Kingdom Ministry of Defence responsible for the acquisition of materiel, equipment and services, for the British armed forces. Led by the Chief of Defence Procurement, t ...
(DPA) and Sweden's Defence Materiel Administration (FMV) therefore launched a Project Definition and Risk Reduction (PDRR) programme. This gave the two teams twelve months in which to refine their designs, and identify and understand the risks and how they would be mitigated. PDRR contracts were placed in August 1997 with a second ITT following in October. The results of the PDRR programme were expected in March 1998 but the procurement became ensnared in the run-up to and aftermath of the UK General Election in May 1997, as the new Labour government conducted its Strategic Defence Review. By 1998 the in-service date (ISD), defined as the first unit equipped with 72 missiles, had slipped to 2007. The UK MoD hosted a government-to-government level briefing on 14/15 July 1997 with Italy, Germany, and Sweden to discuss the BVRAAM programme and how it might meet their requirements, with the aim of pursuing a collaborative procurement.. There were issues at this time over the funding of the risk reduction contracts and some nations were discussing possible financial contributions to the studies in return for access to the data. The European team hoped that, if chosen by the UK, Meteor would also be adopted by Germany, Italy, Sweden, and France. However, Germany had now formulated an even more demanding requirement. In response, DASA/LFK proposed a modified A3M, called Euraam, using a DASA Ulm K-band active seeker, with a passive receiver for stealthy engagements, and a redesigned Bayern Chemie propulsion system. The high energy of the high frequency radar (compared to the I-band used on AMRAAM) was claimed to provide an ability to "burn-through" most ECM and the shorter wavelength would allow the target's position to be determined more precisely allowing the use of directional warheads. At one stage DASA was pushing their government for a two-year demonstration programme which would culminate in four unguided flight tests. This was presented as a fallback position in case the UK chose Raytheon's proposal. More cynical observers regarded this as a tactic to push the UK towards Meteor. Revised BVRAAM bids were submitted on 28 May 1998, with final reports in August. The US Secretary of Defense, William Cohen, wrote to his UK counterpart, George Robertson, with assurances that procurement of the Raytheon missile would not leave the UK vulnerable to US export restrictions, which could potentially handicap Eurofighter exports, a major concern highlighted by Meteor supporters.. The letter assured "open and complete technology transfer", adding that FMRAAM would be cleared for countries already cleared for AMRAAM and that a joint commission could be set up to consider release to other "sensitive countries". In July 1998 a formal statement of intent was signed between the governments of the UK, Germany, Italy, Sweden, and Spain which, subject to the UK's selection of Meteor, agreed to work towards joint procurement of the same missile. In September 1998, Raytheon supplied the UK with estimated costs for AIM-120B AMRAAMs to be fielded on
Tornado A tornado is a violently rotating column of air that is in contact with both the surface of the Earth and a cumulonimbus cloud or, in rare cases, the base of a cumulus cloud. It is often referred to as a twister, whirlwind or cyclone, altho ...
and as an interim weapon on Eurofighter on initial entry into service while BVRAAM was still in development. The US declined to sell the improved AIM-120C version. This was the first stage in Raytheon's incremental approach to fielding the full capability FMRAAM. The MoD had offered both teams the opportunity to propose alternative acquisition strategies which would have involved reaching the full capability on an incremental basis by initially providing an interim capability which could later be upgraded.. Raytheon's staged approach to meeting the full SR(A)1239 requirement offered an interim weapon with a capability between the AIM-120B AMRAAM and the FMRAAM. The Extended Range Air-to-Air Missile (ERAAM) had the FMRAAM seeker and guidance section mated to a dual-pulse solid propellant rocket motor. Raytheon estimated that ERAAM could be ready by the then Eurofighter ISD of 2004 and provided 80% of the FMRAAM capability but at only half the price. This approach played to perceived MoD budget limitations and a realisation that the main threat on which the SR(A)1239 requirement had been predicated, the advanced R-77 derivatives, did not look like entering development any time soon. An incremental approach would allow any technological advances to be incorporated into future upgrades. These could have included multi-pulse rocket motors, thrust vectoring, hybrid rockets, gel propellants, and ductless external combustion ramjets. The Meteor team had considered an interim design, also powered by a dual-pulse solid rocket motor, but decided to offer a fully compliant solution, believing that the staged approach was not cost-effective due to concerns that upgrading from one version to the next would be more complicated than Raytheon claimed. In February 1999 Raytheon added another interim level to their staged approach. The AIM-120B+ would feature the ERAAM/FMRAAM seeker and guidance section but attached to the AIM-120B solid rocket motor. This would be ready for Eurofighter's 2004 ISD and could be updated to the ERAAM or FMRAAM configurations in 2005 and 2007 by swapping the propulsion system and updating the software. At the 1999 Paris Air Show the French Defence Minister expressed his country's interest in joining the Meteor project, putting further pressure on the UK to use BVRAAM as a focus for the consolidation of the European guided weapons industry. The French offered to fund up to 20% of the development if Meteor won the UK contest. Inter-governmental letters of intent were exchanged between the UK and French defence ministers in advance of signing the official MoU prepared by Germany, Italy, Spain, Sweden, and the UK. The French officially joined the programme in September 1999. In July 1999 the Swedish Air Force announced that it would not be funding development of Meteor due to a shortfall in the defence budget. However, this decision was not expected to affect Sweden's participation in the programme, with funding being found from other sources. The political stakes were high. On 4 August 1999, US President Bill Clinton wrote to the UK Prime Minister, Tony Blair. Clinton said that "I believe transatlantic defence industry cooperation is essential to ensuring the continued interoperability of Allied armed forces". Blair also faced lobbying from the French President and Prime Minister, the German Chancellor, and the Spanish Prime Minister. In response, Clinton later wrote a second time to Blair, on 7 February 2000, timed to arrive before a 21 February meeting to discuss the decision. He put the case for Raytheon's bid, underlining the phrase "I feel strongly" about the decision. The direct intervention of the US President emphasised the political and diplomatic significance that the BVRAAM procurement had acquired. In autumn 1999 Raytheon offered yet another twist to its staged approach with the ERAAM+. If chosen, the US Government, in an unprecedented move, offered to merge the US AMRAAM and UK BVRAAM programmes, under joint control. ERAAM+ would be adopted by both countries, equipping Eurofighter, JSF, and the F-22, allowing economies of scale from large US procurement. ERAAM+ would retain the ERAAM dual-pulse motor but fitted to a front end incorporating all the features of Phase 3 of the US Department of Defense's (DoD) AMRAAM Pre-Planned Product Improvement (P3I) programme, which was planned out to 2015. These included upgraded seeker hardware and software to provide improved performance against advanced threats and replacement of the longitudinally mounted electronics boards with a circular design which reduced the volume occupied by the electronics allowing space for a longer rocket motor. As equal partners the US and UK would jointly specify and develop the new missile. It was estimated that ERAAM+ could be delivered for less than half the budget allocated for BVRAAM with a 2007 ISD. According to Raytheon, the programme would have initially provided the UK with 62% of development, production, and jobs for the MoD BVRAAM procurement and would give the UK 50% of the significantly larger US air-to-air market. The UK would have participated in the production of every AMRAAM-derivative sold around the world, projected at that time to be about 15000 over the following 15 years. The ARC dual-pulse motor would not enable full compliance with the SR(A)1239 requirement, however it was believed to be adequate to counter the threats expected until 2012-15 when improvements to the warhead, datalink, and propulsion would be available. The slow pace of Russia's ramjet powered R-77 derivative, a mock-up of which had been displayed at the Paris Air Show but which had not progressed past component ground tests and for which the Russian air force had no requirement due to lack of funding, was offered as evidence that the full capability required by SR(A)1239 would not be necessary for some time. At a press conference to launch ERAAM+ Raytheon said that a ramjet powerplant "is not needed today". Countering Raytheon's proposed transatlantic team,
Boeing The Boeing Company () is an American multinational corporation that designs, manufactures, and sells airplanes, rotorcraft, rockets, satellites, telecommunications equipment, and missiles worldwide. The company also provides leasing and product ...
was added to the European team, to provide expertise on aircraft integration, risk management, lean manufacturing technology and marketing activities in selected markets. Boeing also brought vast experience of dealing with the US DoD, essential in any future attempts to get Meteor on US aircraft. Although initially interested in developing a suppression of enemy air defence variant of Meteor as a successor to HARM, Boeing has become less and less an active partner as development has progressed. In late 1999 Sweden rejoined the programme. By early 2000 both teams had submitted best and final offers. The Government was expected to announce a decision in March, following a meeting of the MoD's Equipment Approvals Committee (EAC) on 21 February. The decision was so politically delicate that some believed that the EAC would leave it to the Prime Minister when he chaired the defence and overseas policy committee. Last minute intervention by the UK
Treasury A treasury is either *A government department related to finance and taxation, a finance ministry. *A place or location where treasure, such as currency or precious items are kept. These can be state or royal property, church treasure or in p ...
delayed the decision, after concerns about the cost of Meteor, believed to be the preferred solution, compared to the cheaper incremental approach offered by Raytheon.


Decision

In May 2000 the UK Secretary of State for Defence, Geoff Hoon, announced that Meteor had been selected to meet SR(A)1239. Fabrice Bregier, then Chief Executive Officer of MBD, said "This decision marks a historic milestone in the establishment of a European defence capability. For the first time, Europe will equip its fighter aircraft with a European air-to-air missile, creating interoperability and independence to export". By this stage the In Service Date was 2008. The
British House of Commons The House of Commons is the lower house of the Parliament of the United Kingdom. Like the upper house, the House of Lords, it meets in the Palace of Westminster in London, England. The House of Commons is an elected body consisting of 650 mem ...
Defence Select Committee The Defence Select Committee is one of the Select Committees of the House of Commons of the United Kingdom, having been established in 1979. It examines the expenditure, administration, and policy of the Ministry of Defence and its associated pub ...
summarised the reasons behind the decision in its Tenth Report: "The Meteor missile has some clear advantages over its Raytheon competitor—it appears to offer the more militarily effective solution; it should help rationalise and consolidate the European missile industry, and provide future competitions with a counterweight to US dominance in this field; and it entails a lower risk of constraints on Eurofighter exports. Although the programme is in its early days, it also offers the prospect of avoiding some of the problems that have plagued other European procurement collaborations, without arbitrary workshare divisions and with a clear project leadership role to be provided by the UK. The MoD needs to take advantage of that leadership role to keep momentum behind the project, including an early contract which will lock-in not just the contractor but also the commitments of our international partners. The cautious definition of the missile's target in-service date may be realistic, particularly in view of the technological challenges that will have to be overcome, but in BVRAAM's case it is a date that must be met if Eurofighter is to fulfil its potential." The selection of Meteor was not a total loss for Raytheon, as the UK ordered a number of AIM-120s to arm Eurofighter on entry into service which was expected before Meteor development was complete.


Pre-contract

MBDA was formed in 2001, combining Matra BAe Dynamics, EADS'
Aerospatiale Matra Missiles Airbus SE (; ; ; ) is a European multinational aerospace corporation. Airbus designs, manufactures and sells civil and military aerospace products worldwide and manufactures aircraft throughout the world. The company has three divisions: '' ...
and the missile business of
Alenia Marconi Systems Alenia Marconi Systems (AMS) was a major European integrated defence electronics company and an equal shares joint venture between BAE Systems and Finmeccanica (now Leonardo S.p.A.) until its dissolution on 3 May 2005. AMS was formed in 1998 by ...
as the second largest missile company after Raytheon. Negotiations to conclude a smart procurement contract continued. At the Paris Air Show 2001 defence ministers from France, Sweden, and the UK signed a Memorandum of Understanding committing their nations to the Meteor programme. The nations of the other industrial partners, Germany, Italy, and Spain, only signalled an intention to sign within a few weeks, claiming procedural delays within their national procurement systems. Following parliamentary approval in August, Italy signed the Memorandum on 26 September 2001, for an anticipated procurement of about 400 missiles. Spain followed on 11 December 2001. Germany's financial contribution to the programme was considered essential but for more than two years development was hamstrung by the repeated failure of the German defence budget committee to approve funding. Without the German propulsion system, MBDA deemed that Meteor could not realistically proceed. During this gap in the programme MBDA was funding Meteor from its own resources and, by June 2002, had spent around £70m - most of which had gone, ironically, to Bayern-Chemie to reduce technical risk in the propulsion system, the performance of which was critical to meeting the requirements. Germany had set two conditions for participation in the project: that the UK should place a contract for the weapon; and that MBDA give a guaranteed level of performance, both of which were achieved by 30 April 2002. It was hoped to sign an agreement at that summer's
Farnborough Air Show The Farnborough Airshow, officially the Farnborough International Airshow, is a trade exhibition for the aerospace and defence industries, where civilian and military aircraft are demonstrated to potential customers and investors. Since its fir ...
. However Germany would not approve funding for the project until December 2002, at the same time cutting its planned acquisition from 1,488 to 600 missiles.


Description


Seeker

Terminal guidance is provided by an
active radar homing Active radar homing (ARH) is a missile guidance method in which a missile contains a radar transceiver (in contrast to semi-active radar homing, which uses only a receiver) and the electronics necessary for it to find and track its target aut ...
seeker which is a joint development between MBDA's Seeker Division and Thales Airborne Systems and builds on their co-operation on the AD4A (Active Anti-Air Seeker) family of seekers that equip the
MICA Micas ( ) are a group of silicate minerals whose outstanding physical characteristic is that individual mica crystals can easily be split into extremely thin elastic plates. This characteristic is described as perfect basal cleavage. Mica is ...
and
Aster Aster or ASTER may refer to: Biology * ''Aster'' (genus), a genus of flowering plants ** List of ''Aster'' synonyms, other genera formerly included in ''Aster'' and still called asters in English * Aster (cell biology), a cellular structure shap ...
missiles. The active radar seeker is manufactured by MBDA Italy.


Forebody

The active radar
proximity fuze A proximity fuze (or fuse) is a Fuze (munitions), fuze that detonates an Explosive material, explosive device automatically when the distance to the target becomes smaller than a predetermined value. Proximity fuzes are designed for targets such ...
subsystem (PFS) is provided by Saab Bofors Dynamics (SBD). The PFS detects the target and calculates the optimum time to
detonate Detonation () is a type of combustion involving a supersonic exothermic front accelerating through a medium that eventually drives a shock front propagating directly in front of it. Detonations propagate supersonically through shock waves with s ...
the warhead in order to achieve the maximum lethal effect.. The PFS has four antennae, arranged symmetrically around the forebody. The Impact Sensor is fitted inside the PFS. Behind the PFS is a section containing
thermal batteries Molten-salt batteries are a class of battery that uses molten salts as an electrolyte and offers both a high energy density and a high power density. Traditional non-rechargeable thermal batteries can be stored in their solid state at room temper ...
, provided by ASB, the AC Power Supply Unit, and the Power and Signal Distribution Unit. In August 2003 SBD received a contract worth SEK 450 million to develop the PFS.


Warhead

The blast-fragmentation warhead is produced by
TDW TDW (Gesellschaft für verteidigungstechnische Wirksysteme mbH) is the European leader in the development and manufacture of warheads for guided weapons. The company was founded in 1994 and has 130 employees based in Schrobenhausen, Germany. TD ...
. The warhead is a structural component of the missile. A Telemetry and Break-Up System (TBUS) replaces the warhead on trials missiles.


Propulsion

The propulsion sub-system (PSS) is a throttleable ducted rocket (TDR) with an integrated nozzleless booster, designed and manufactured by Bayern-Chemie. TDR propulsion provides a long range, a high average speed, a wide operational envelope from sea level to high altitude, a flexible mission envelope via active variable thrust control, relatively simple design, and logistics similar to those of conventional
solid-fuel rocket A solid-propellant rocket or solid rocket is a rocket with a rocket engine that uses solid propellants ( fuel/oxidizer). The earliest rockets were solid-fuel rockets powered by gunpowder; they were used in warfare by the Arabs, Chinese, Persian ...
motors. The PSS consists of four main components: a ramcombustor with integrated nozzleless booster; the air intakes; the interstage; and the sustain gas generator. The PSS forms a structural component of the missile, the gas generator and ramcombustor having steel cases. The propulsion control unit electronics are mounted in the port intake fairing, ahead of the fin actuation subsystem. The solid propellant nozzleless booster is integrated within the ramcombustor and accelerates the missile to a velocity where the TDR can take over. The reduced smoke propellant complies with STANAG 6016. The air intakes and the port covers which seal the intake diffusors from the ramcombustor remain closed during the boost phase. The intakes are manufactured from
titanium Titanium is a chemical element with the symbol Ti and atomic number 22. Found in nature only as an oxide, it can be reduced to produce a lustrous transition metal with a silver color, low density, and high strength, resistant to corrosion in ...
. The interstage is mounted between the gas-generator and the ramcombustor and contains the Motor Safety Ignition Unit (MSIU), the booster igniter, and the gas generator control valve. The gas generator is ignited by the hot gases from the booster combustion which flow through the open control valve. The gas generator contains an oxygen deficient composite solid propellant which produces a hot, fuel-rich gas which auto-ignites in the air which has been decelerated and compressed by the intakes. The high energy
boron Boron is a chemical element with the symbol B and atomic number 5. In its crystalline form it is a brittle, dark, lustrous metalloid; in its amorphous form it is a brown powder. As the lightest element of the ''boron group'' it has th ...
-loaded propellant provides a roughly threefold increase in specific impulse compared to conventional solid rocket motors. The result yields a no-escape zone more than three times greater than that of the current AIM-120 AMRAAM used by Eurofighter Typhoon-equipped airforces.AirForces Monthly: 20 Year Anniversary Special - Eurofighter Typhoon, Issue Date: May/June 2014
Thrust Thrust is a reaction force described quantitatively by Newton's third law. When a system expels or accelerates mass in one direction, the accelerated mass will cause a force of equal magnitude but opposite direction to be applied to that syst ...
is controlled by a valve which varies throat area of the gas generator nozzle. Reducing the throat area increases the pressure in the gas generator which increases the propellant burn rate, increasing the fuel mass flow into the ramcombustor. The mass flow can be varied continuously over a ratio greater than 10:1.


Control

The missile trajectory is controlled aerodynamically using four rear-mounted fins. Meteor's control principles are intended to allow high turn rates while maintaining intake and propulsion performance.The FAS is mounted at the rear of the intake fairings. The design of the FAS is complicated by the linkages required between the actuator in the fairing and the body-mounted fins. The fin actuation subsystem (FAS) was originally designed and manufactured by the Claverham Group, a UK based division of the US company Hamilton Sundstrand. After a short time the design was taken on board by MBDA UK, at
Stevenage Stevenage ( ) is a large town and borough in Hertfordshire, England, about north of London. Stevenage is east of junctions 7 and 8 of the A1(M), between Letchworth Garden City to the north and Welwyn Garden City to the south. In 1946, Stevena ...
, but was transferred to the Spanish company SENER at an early stage of the development. SENER completed the development and certification of the FAS including the production and qualification of the prototypes.


Datalink

Meteor will be 'network-enabled'. A datalink will allow the launch aircraft to provide mid-course target updates or retargeting if required, including data from offboard third parties. The datalink electronics are mounted in the starboard intake fairing, ahead of the FAS. The antenna is mounted in the rear of the fairing. On 19 November 1996 Bayern-Chemie completed the latest in a series of tests designed to assess the attenuation of signals by the boron rich exhaust plume of the TDR, a concern highlighted by opponents of this form of ramjet propulsion. Tests were conducted with signals transmitted through the plume at various angles. The initial results suggested that the attenuation was much less than expected. The Eurofighter and Gripen, with two-way datalinks, allow the launch platform to provide updates on targets or re-targeting when the missile is in flight. The datalink is capable of transmitting information such as kinematic status. It also notifies target acquisition by the seeker.


Support

The Integrated Logistics Support concept proposed for Meteor does away with line maintenance. The missiles will be stored in dedicated containers when not in use. If the Built-In Test equipment detects a fault the missile will be returned to MBDA for repair. The Meteor is intended to have an airborne carriage life of 1,000 hours before any maintenance is required..


Orders

Full-scale development and production of Meteor began in 2003 with the signature of a £1.2 billion contract by the UK on behalf of France, Germany, Italy, Spain, Sweden and the UK. The percentage share of the programme allocated to each partner nation has changed several times over the years. Germany's decision to reduce its intended acquisition resulted in the UK taking 5% of the programme from Germany, giving the UK 39.6% and Germany 16%. France is funding 12.4%, Italy 12%, and Sweden and Spain 10% each. An Integrated Project Team (IPT) was established at MoD Abbey Wood with representatives from all partner nations seconded to the team. The programme will be managed by the UK MoD through the IPT on behalf of the partner nations. The IJPO report to the UK Chief of Defence Procurement, the Executive Board of the DPA, and to an International Steering Committee comprising a one or two star representative from each partner nation's air force. The prime-contractor, MBDA, will manage and execute the programme through its operating companies in France, Italy, and the UK, working with Bayern-Chemie/Protac in Germany,
Inmize {{Infobox company , name = Inmize Sistemas, S.L. , logo = , foundation = 6 February 2002 , location = San Fernando de Henares, Community of Madrid, Spain , industry = Defence , services = IT systems and services for defence , parent = MBD ...
Sistemas SL in Spain, and Saab Bofors Dynamics in Sweden. It is estimated that over 250 companies across Europe will be involved. Work will be allocated by MBDA to its risk-sharing partners on an "earned value basis" under which work is placed according to best commercial value, taking into account technical excellence, but with a view to aligning "broadly" with the share of development funding provided by each nation. The development programme will make large use of computer simulation and so should require a relatively small number of firings, some of which will cover activities more traditionally associated with aircraft-integration trials. The first firing, from Gripen, was expected in 2005 with an in service date of August 2012. In December 2009 the Spanish government authorized the procurement of 100 Meteor missiles and their corresponding support equipment. In September 2010 the Swedish Defence Materiel Administration, signed a production order contract with the MoD for the Meteor missile; the system is expected to be operational with the Swedish Air Force in 2015. In May 2015, Qatar ordered 160 Meteor missiles to equip the Dassault Rafales of the Qatar Emiri Air Force. Greek Air Force is expected to equip its Rafale fighters with Meteor missiles. Egypt's Rafale order excluded the long-range Scalp and Meteor missile's


Key milestones

The UK MoD stipulated four "tightly defined" contractual milestones that had to be met otherwise the programme would be cancelled with MBDA expected to repay the development funding: # To demonstrate successful transition from boost to sustain propulsion. # To demonstrate control of the asymmetric airframe. There was concern that the intake air flow would be disrupted during manoeuvres resulting in a loss of propulsion performance or even control. The asymmetric configuration also poses unique control problems. Achievement of this milestone was to be demonstrated using computer models validated from the Air Launched Demonstrator (ALD) trials results. # To demonstrate transfer alignment of the missile's inertial measurement system. This process ensures that the missile knows where it is at launch. Good knowledge of initial position is essential to accurate navigation, particularly for long range engagements. # This milestone relates to Meteor's electronic counter-countermeasures (ECCM) capability. This is highly classified work to be conducted in MBDA's hardware-in-the-loop laboratory at Rome.. Achievement of these milestones will be evaluated by QinetiQ acting as an independent auditor.


Development

At the 2003 Paris Air Show MBDA signed a contract with Bayern-Chemie/Protac worth in excess of EUR250m, for development, first lot production, and integrated logistics for the Meteor PSS. Also at the show, MBDA and Thales formalised their agreement of June 2002 by signing a contract for EUR46m covering development and initial production of seekers for the RAF's missiles. Over the eight months following contract signature, MBDA had determined the definitive external shape of Meteor. By the summer of 2003 manufacture had commenced of a full-scale model for aircraft fit checks as well as sub-scale models for
wind tunnel Wind tunnels are large tubes with air blowing through them which are used to replicate the interaction between air and an object flying through the air or moving along the ground. Researchers use wind tunnels to learn more about how an aircraft ...
tests scheduled for the autumn. The mid-mounted wings which had featured in the originally proposed configuration were removed. Following extensive pre-contract wind tunnel testing and MBDA's growing experience with guidance and control technologies for wingless configurations, such as ASRAAM, a wingless design was believed to offer the best solution to meeting the performance requirements. The control fins were also redesigned so that all four fins were now identical. In October 2003 the first trial fit of a geometrically representative model was carried out on Eurofighter. Checks were successfully carried out on the underfuselage semi-recessed, long-stroke Missile Eject Launchers and the underwing pylon-mounted rail-launchers. In November 2003 Saab Aerosystems received an order worth 435m Swedish Kronor from the FMV for the integration of Meteor onto Gripen. As prime contractor for the integration task Saab Aerosystems will be supported by Ericsson Microwave Systems, Saab Bofors Dynamics, and MBDA (UK). In December 2003 MBDA and Saab Bofors Dynamics signed an enabling contract worth 485m kronor covering programme management, system level participation, participation in the development of seeker, guidance, and autopilot algorithms, development of missile software, development of test equipment, system proving activities, and the TBUS. In April 2004 MBDA carried out fit checks on a Gripen at Saab's Linköping facility. This demonstrated the mechanical interfaces between the missile, the Multi-Missile Launcher (MML) and the aircraft. Wind tunnel tests had recently been completed at BAE Systems' facility at Warton, UK, and at ONERA in Modane, France. These tests successfully demonstrated the air intake operation and validated the modelled aerodynamic characteristics, confirming the configuration for the first flight trials. In August 2004 Bayern-Chemie delivered the first inert PSS, to be used for structural testing, amongst other things. By the summer of 2005 two inert missiles had been delivered to Modane to recommission the facility following major modifications intended to prepare it for the free-jet trials. These were planned to begin with a 'part-firing' before the French summer holidays to be followed by two full-scale firings later in the year. These would comprise a full end-to-end demonstration of the complete propulsion system at representative supersonic free flight conditions as a risk reduction exercise for the ALD firings, scheduled for the last quarter of 2005. During these tests a full-scale missile model fitted with a live PSS would be mounted on a moveable strut in the wind tunnel, allowing a series of incidence and sideslip manoeuvres to be conducted over the full duration of the PSS operation. The tests would demonstrate operation of the air intakes, the transition from boost to sustain propulsion, control of the sustain motor thrust, and provide data on the aerodynamic characteristics. On 9 September 2005 the first flight of Meteor on board a
French Navy The French Navy (french: Marine nationale, lit=National Navy), informally , is the maritime arm of the French Armed Forces and one of the five military service branches of France. It is among the largest and most powerful naval forces in t ...
F2 standard Rafale M was successfully carried out from Istres, France. This was in preparation for a week-long series of trials from the nuclear-powered aircraft carrier
Charles de Gaulle Charles André Joseph Marie de Gaulle (; ; (commonly abbreviated as CDG) 22 November 18909 November 1970) was a French army officer and statesman who led Free France against Nazi Germany in World War II and chaired the Provisional Government ...
which commenced on 11 December 2005. Tests were carried out with two Ground Handling Training Missiles (GHTM) and an Environmental Data Gathering (EDG) missile fitted alternatively on an underwing rail-launcher or underfuselage eject launchers. The EDG is an instrumented missile representing all the dynamic properties of an operational missile in terms of size, weight, and aerodynamic shape. The trials were designed to measure the shock and vibration levels associated with the severe carrier operational environment. Around twenty catapult launches and full deck arrests were undertaken, along with a number of touch and go landings on the fightdeck to provide a fully comprehensive handling test of the aircraft while fitted with Meteor. The trials went so well that they were concluded a day earlier than planned.Rafale flies Meteor trials from Charles de Gaulle", Jane's Missiles & Rockets 2005 On 13 December a separate campaign commenced in Sweden with flights of the Meteor avionics missile (GMA5) carried on the port wing outboard station of Gripen aircraft 39.101, which had been modified with Meteor-unique software. As with the EDG missile GMA5 represents all the dynamic properties of an operational missile but also interfaces electrically with the launch aircraft. These trials successfully verified mechanical, electrical, and functional interfaces between the missile and aircraft. This was the first in-flight trial of two-way communication between the missile and aircraft and was an important step in clearing the aircraft and missile for the ALD firings which had slipped into Spring 2006, due to the lack of winter daylight hours at the
Vidsel Test Range Vidsel Test Range is a Swedish strategic national test and evaluation asset operated by the Swedish Defence Materiel Administration (FMV), a part of the Swedish Ministry of Defence, near Vidsel. Physical attributes Vidsel Test Range is located in ...
in northern Sweden. In a separate air-carry trial a Eurofighter of No. 17 (R) squadron RAF flew with two GHTMs on the forward underfuselage stations to assess how the aircraft handled during a series of manoeuvres. On 21 January 2006 a range work-up was conducted at Vidsel, again with GMA5 mounted on 39.101. This successfully verified system communications and set-up between the aircraft and the test range in advance of the first firing. The first ALD firing took place on 9 May 2006 from a JAS 39 Gripen flying at an altitude of 7,000 m. The missile was launched from the port underwing MML, separating safely from the launch aircraft as the integrated booster accelerated the missile to over
Mach Mach may refer to Mach number, the speed of sound in local conditions. It may also refer to: Computing * Mach (kernel), an operating systems kernel technology * ATI Mach, a 2D GPU chip by ATI * GNU Mach, the microkernel upon which GNU Hurd is bas ...
2.0 in around two seconds."Meteor fizzles, then burns", Aviation Week & Space Technology, 26 June 06 However, after a successful boost the missile failed to transition to the sustain phase of flight. The missile continued under boost impulse, gradually decelerating until broken up, on command from the ground. Despite this problem telemetry was gathered throughout the full duration of the flight. The missile debris was recovered and the air intakes were found to be still closed. The problem was traced to a timing issue in the gas generator valve control unit software, which was developed by a Bayern-Chemie subcontractor. Following modification a repeat of the first trial took place on 20 May 2006 and was a complete success. During the sustain phase the missile carried out a series of pre-programmed manoeuvres, under autopilot control, representative of the mid-course and endgame phases of an engagement. The flight lasted just under a minute and ended again with the successful operation of the break-up system which destroyed the missile within the range boundary. The first trial of a flight standard functional seeker was carried out on 30 June 2006. The Seeker Data Gathering (SDG) missile was carried under the wing of Gripen. The SDG missile has no propulsion system or warhead but contains operational missile subsystems and telemetry systems. The flight lasted approximately 1.5 hours, allowing data to be gathered over a variety of different flight conditions. These data will be used in support of the third Key Milestone. This marked the start of a two-year seeker development programme which will conclude with the first guided firing, currently scheduled for 2008 from Gripen. This programme will gather clutter data and demonstrate capabilities such as transfer alignment and target tracking in clear air and in the presence of ECM. On 5 September 2006 the third and final ALD firing was successfully conducted. The launch conditions were the same as the first two firings but the missile flew a different flight profile. The UK NAO Major Projects Report 2006 reported a 12-month delay in the Meteor programme, pushing the expected in service date back to August 2013. The Chief of Defence Procurement was reported as saying that this was nothing to do with the missile itself, "Meteor is actually going very well." and the lack of Eurofighter aircraft for the integration work was the main reason for the slip. The Minister of Defence Procurement, Lord Drayson, said "I regard this as a Eurofighter Gmbh problem." It was reported that this delay could lead to the RAF operating AMRAAM to a point where stocks of airworthy missiles become low. On 28 April 2015, French Ministry Of Defense, Dassault Aviation and MBDA proceeded with the first guided launch of a Meteor from the Dassault Rafale against an aerial target. The test, performed by a Rafale flying from the DGA Essais en Vol site at
Cazaux Cazaux () is a commune of the Ariège department in southwestern France France (), officially the French Republic ( ), is a country primarily located in Western Europe. It also comprises of overseas regions and territories in t ...
, was successfully completed in a zone of the DGA Essais de Missiles site of Biscarrosse. On 21 April 2017, the UK government signed a £41 million contract with MBDA to integrate Meteor on Royal Air Force Eurofighter Typhoons and the F-35B Lightning IIs. On 10 December 2018, RAF Typhoons flew their first active mission with Meteor missiles. On 2 July 2018, MBDA opened a new facility in Bolton, England to carry out final assembly for all six European partner nations. On 30 August 2022, Saab announced its first firing of the MBDA Meteor with an Gripen E, at an altitude of 16,500 ft over the
Vidsel Test Range Vidsel Test Range is a Swedish strategic national test and evaluation asset operated by the Swedish Defence Materiel Administration (FMV), a part of the Swedish Ministry of Defence, near Vidsel. Physical attributes Vidsel Test Range is located in ...
in northern Sweden “in late May/early June”.


Future

MBDA is planning integration of Meteor on the F-35 by 2027 for the UK and Italian Air Forces.https://ukdefencejournal.org.uk/integration-of-meteor-missile-on-f-35b-slips-to-2027/ The Meteor has already been checked for fit in the internal weapons bays of the JSF. It is compatible with the aircraft's internal air-to-ground stations, but requires a different fin shape to be compatible with the air-to-air stations that will be fitted as a 'role change kit'. India enquired whether the Meteor could be integrated with their Sukhoi Su-30MKI and
HAL Tejas The HAL Tejas is an Indian, single engine, delta wing, light multirole fighter designed by the Aeronautical Development Agency (ADA) in collaboration with Aircraft Research and Design Centre (ARDC) of Hindustan Aeronautics Limited (HAL) for t ...
fleets, however this was refused.


Joint New Air-to-Air Missile

On 17 July 2014, MBDA UK agreed to jointly research a Meteor-derived missile with Japan. A spokesman from the
Ministry of Defense (Japan) The is an executive department of the Government of Japan responsible for preserving the peace and independence of Japan, and maintaining the country’s national security and the Japan Self-Defense Forces. The ministry is headed by the M ...
confirmed on 14 January 2016 that, Japan and the United Kingdom will develop a Joint New Air-to-Air Missile (JNAAM) by "combining the UK's missile-related technologies and Japanese seeker technologies". The
active electronically scanned array An active electronically scanned array (AESA) is a type of phased array antenna, which is a computer-controlled array antenna in which the beam of radio waves can be electronically steered to point in different directions without moving the an ...
seeker of the
Mitsubishi Electric , established on 15 January 1921, is a Japanese multinational electronics and electrical equipment manufacturing company headquartered in Tokyo, Japan. It is one of the core companies of Mitsubishi. The products from MELCO include elevators an ...
AAM-4 The Mitsubishi AAM-4 (Type 99 air-to-air missile, ) is a medium-range active radar homing air-to-air missile. It is a modern beyond-visual-range missile developed in Japan and intended to replace the semi-active radar homing AIM-7 Sparrow missile ...
B would be mounted on the Meteor, because the AAM-4B is too large to be carried in the Japanese F-35 weapons bay. According to the Japanese Ministry of Defense, the seeker will be made of gallium nitride modules to reconcile both miniaturization and performance enhancement and planned to carry out the first launch test with a British fighter jet by 2023. A Janes report Japan’s Ministry of Defense (MoD) has asked its Ministry of Finance in Tokyo for JPY1.2 billion (USD11.4 million) to push ahead with the co-development of the JNAAM with the United Kingdom.


Operators


Current

* –
Brazilian Air Force "Wings that protect the country" , colours = , colours_label = , march = Hino dos Aviadores , mascot = , anniversaries = 22 May (anniver ...
* –
French Air Force The French Air and Space Force (AAE) (french: Armée de l'air et de l'espace, ) is the air and space force of the French Armed Forces. It was the first military aviation force in history, formed in 1909 as the , a service arm of the French Army; ...
and
French Navy The French Navy (french: Marine nationale, lit=National Navy), informally , is the maritime arm of the French Armed Forces and one of the five military service branches of France. It is among the largest and most powerful naval forces in t ...
* –
German Air Force The German Air Force (german: Luftwaffe, lit=air weapon or air arm, ) is the aerial warfare branch of the , the armed forces of Germany. The German Air Force (as part of the ''Bundeswehr'') was founded in 1956 during the era of the Cold War a ...
* – Hellenic Air Force * -
Indian Air Force The Indian Air Force (IAF) is the air arm of the Indian Armed Forces. Its complement of personnel and aircraft assets ranks third amongst the air forces of the world. Its primary mission is to secure Indian airspace and to conduct aerial w ...
* –
Italian Air Force , colours = , colours_label = , march = (Ordinance March of the Air Force) by Alberto Di Miniello , mascot = , anniversaries = 28 March ...
* – Qatar Air Force * –
Spanish Air Force , colours = , colours_label = , march = Spanish Air and Space Force Anthem , mascot = , anniversaries = 10 December , equipment ...
* –
Swedish Air Force The Swedish Air Force ( sv, Svenska flygvapnet or just ) is the air force branch of the Swedish Armed Forces. History The Swedish Air Force was created on 1 July, 1926 when the aircraft units of the Army and Navy were merged. Because of the es ...
* –
Royal Air Force The Royal Air Force (RAF) is the United Kingdom's air and space force. It was formed towards the end of the First World War on 1 April 1918, becoming the first independent air force in the world, by regrouping the Royal Flying Corps (RFC) and ...


Future

* –
Egyptian Air Force The Egyptian Air Force (EAF) ( ar, القوات الجوية المصرية, El Qūwāt El Gawīyä El Maṣrīya), is the aviation branch of the Egyptian Armed Forces that is responsible for all airborne defence missions and operates all milit ...
: Missiles included in the Rafale contract. * –
Croatian Air Force The Croatian Air Force ( hr, Hrvatsko ratno zrakoplovstvo or HRZ) is a branch of the Croatian Armed Forces whose primary task is to ensure the sovereignty of the airspace of the Republic of Croatia and to provide aviation support to other branc ...
* - Hungarian Air Force: * –
Italian Navy "Fatherland and Honour" , patron = , colors = , colors_label = , march = ( is the return of soldiers to their barrack, or sailors to their ship after a ...
: Pending integration into the F-35 * – Royal Saudi Air Force * – Republic of Korea Air Force * –
Royal Navy The Royal Navy (RN) is the United Kingdom's naval warfare force. Although warships were used by English and Scottish kings from the early medieval period, the first major maritime engagements were fought in the Hundred Years' War against F ...
: Under development integration with the F-35 expected to be completed by the end of 2027


See also

*
List of missiles Below is a list of missiles, sorted alphabetically into large categories and subcategories by name and purpose. Other missile lists Types of missiles: * Conventional guided missiles ** Air-to-air missile ** Air-to-surface missile ** Anti-radiat ...
;Similar missiles * AIM-54 Phoenix * AIM‐120 AMRAAM *
AIM-152 AAAM The AIM-152 AAAM was a long-range air-to-air missile developed by the United States. The AIM-152 was intended to serve as the successor to the AIM-54 Phoenix. The program went through a protracted development stage but was never adopted by the Un ...
*
AIM-260 JATM The AIM-260 Joint Advanced Tactical Missile (JATM) is an American beyond-visual-range air-to-air missile (BVRAAM) under development by Lockheed Martin. Designed to address advanced threats, the missile is expected to replace or supplement the A ...
* Astra (missile) * FMRAAM *
K-100 (missile) The Novator KS-172 was a Russian air-to-air missile project designed as an "Airborne Early Warning and Control, AWACS killer" at ranges up to 400 km. The missile had various names during its history, including K-100, Izdeliye 172 ('project ...
* Long-Range Engagement Weapon * PL-12D * PL-15 * PL-21 * R-37 (missile) * R-77M


References


External links

{{Commons category, MBDA Meteor
MBDA: Meteor
(MBDA) International air-to-air missiles Air-to-air missiles of the United Kingdom Military equipment introduced in the 2010s