Terminal High Altitude Area Defense

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Terminal High Altitude Area Defense (THAAD)
A Terminal High Altitude Area Defense interceptor being fired during an exercise in 2013
A Terminal High Altitude Area Defense interceptor being fired during an exercise in 2013
Type Anti-ballistic missile system
Place of origin United States
Service history
In service 2008–present
Used by United States Army
Production history
Designed 1987
Manufacturer Lockheed Martin
Produced 2008–present
No. built numerous
Specifications
Weight 900 kg[1]
Length 6.17 m[1]
Diameter 34 cm[1]

Operational
range
>200 km[1]
Speed Mach 8.24 or 2.8 km/s[1]
Guidance
system
Indium antimonide Imaging Infra-Red Seeker Head

Terminal High Altitude Area Defense (THAAD), formerly Theater High Altitude Area Defense, is an American anti-ballistic missile defense system designed to shoot down short, medium, and intermediate range ballistic missiles in their terminal phase by intercepting with a hit-to-kill approach.[2][3] THAAD was developed after the experience of Iraq's Scud missile attacks during the Gulf War in 1991.[4] The THAAD interceptor carries no warhead, but relies on its kinetic energy of impact to destroy the incoming missile. A kinetic energy hit minimizes the risk of exploding conventional warhead ballistic missiles, and nuclear tipped ballistic missiles will not detonate upon a kinetic energy hit.

Originally a United States Army program, THAAD has come under the umbrella of the Missile Defense Agency. The Navy has a similar program, the sea-based Aegis Ballistic Missile Defense System, which now has a land component as well ("Aegis ashore"). THAAD was originally scheduled for deployment in 2012, but initial deployment took place in May 2008.[5][6] THAAD has been deployed in the United Arab Emirates, Turkey, and South Korea.

The THAAD system is being designed, built, and integrated by Lockheed Martin Space Systems acting as prime contractor. Key subcontractors include Raytheon, Boeing, Aerojet Rocketdyne, Honeywell, BAE Systems, Oshkosh Defense, MiltonCAT and the Oliver Capital Consortium.[7]

Development[edit]

THAAD missile diagram

The THAAD missile defense concept was proposed in 1987, with a formal request for proposals submitted to industry in 1991. In September 1992, the US Army selected Martin Marietta (now Lockheed Martin) as prime contractor for THAAD development. Prior to development of a physical prototype, the Aero-Optical Effect (AOE) software code was developed to validate the intended operational profile of Lockheed's proposed design. The first THAAD flight test occurred in April 1995, with all flight tests in the Demonstration-Validation (DEM-VAL) program phase occurring at White Sands Missile Range. The first six intercept attempts missed the target (Flights 4–9). The first successful intercepts were conducted on 10 June 1999, and 2 August 1999, against Hera missiles.

Demonstration and validation[edit]

Terminal High Altitude Area Defense System Test, FTT-09 Pacific Missile Range Facility, 25 June 2008
Date Result Notes
21 April 1995 Success First test flight to prove the propulsion system. There was no target in the test.
31 July 1995 Aborted Kill vehicle control test. The test flight was aborted. There was no target in the test.
13 October 1995 Success Launched to test its target-seeking system. There was no attempt to hit the target in the test.
13 December 1995 Failure Failed to hit a test target due to software errors in the missile's fuel system.
22 March 1996 Failure Failed to hit a test target due to mechanical problems with the kill vehicle's booster separation.
15 July 1996 Failure Failed to hit a test target due to a malfunction in the targeting system.
6 March 1997 Failure Failed to hit a test target due to a contamination in the electrical system.
12 May 1998 Failure Failed to hit a test target due to an electrical short circuit in the booster system. At this point, the U.S. Congress reduced funding for the project due to repeated failures.
29 March 1999 Failure Failed to hit a test target due to multiple failures including guidance system.
10 June 1999 Success Hit a test target in a simplified test scenario.
2 August 1999 Success Hit a test target outside the atmosphere.

Engineering and manufacturing[edit]

In June 2000, Lockheed won the Engineering and Manufacturing Development (EMD) contract to turn the design into a mobile tactical army fire unit. Flight tests of this system resumed with missile characterization and full system tests in 2006 at White Sands Missile Range, then moved to the Pacific Missile Range Facility. The Interceptor was led through development and initial production by Tory Bruno, who later became CEO of United Launch Alliance.

Date Result Notes
22 November 2005 Success Launched a missile in its first Flight EMD Test, known as FLT-01. The test was deemed a success by Lockheed and the Pentagon.[8]
11 May 2006 Success FLT-02, the first developmental flight test to test the entire system including interceptor, launcher, radar, and fire control system.[9]
12 July 2006 Success FLT-03. Intercepted a live target missile.[10]
13 September 2006 Aborted Hera target missile launched but had to be terminated in mid-flight before the launch of the FLT-04 missile. This has officially been characterized as a "no test".[citation needed]
Fall 2006 Cancelled FLT-05, a missile-only test, was postponed until mid-spring 2007.[citation needed]
27 January 2007 Success FLT-06. Intercepted a "high endo-atmospheric" (just inside earth's atmosphere) unitary (non-separating) target representing a "SCUD"-type ballistic missile launched from a mobile platform off Kauai in the Pacific Ocean.[11]
6 April 2007 Success FLT-07 test. Intercepted a "mid endo-atmospheric" unitary target missile off Kauai in the Pacific Ocean. It successfully tested THAAD's interoperability with other elements of the MDS system.[12][13]
27 October 2007 Success Conducted a successful exo-atmospheric test at the Pacific Missile Range Facility (PMRF) off Kauai, Hawaii. The flight test demonstrated the system's ability to detect, track and intercept an incoming unitary target above the Earth's atmosphere. The Missile was hot-condition tested to prove its ability to operate in extreme environments.[14][15]
27 June 2008 Success Downed a missile launched from a C-17 Globemaster III.[16]
17 September 2008 Aborted Target missile failed shortly after launch so neither interceptor was launched. Officially a "no test".[17]
17 March 2009 Success A repeat of the September flight test. This time it was a success.[18]
11 December 2009 Aborted FLT-11: The Hera target missile failed to ignite after air deployment and the interceptor was not launched. Officially a "no test".[19]
29 June 2010 Success FLT-14: Conducted a successful endo-atmospheric intercept of unitary target at lowest altitude to date. Afterward, exercised Simulation-Over-Live-Driver (SOLD) system to inject multiple simulated targets into the THAAD radar to test system's ability to engage a mass raid of enemy ballistic missiles.[20]
5 October 2011 Success FLT-12: Conducted a successful endo-atmospheric intercept of two targets with two interceptors.[21]
24 October 2012 Success FTI-01 (Flight Test Integrated 01): test of the integration of THAAD with PAC-3 and Aegis against a raid of 5 missiles of different types.[22] During this engagement THAAD successfully intercepted an Extended Long Range Air Launch Target (E-LRALT) missile dropped from a C-17 north of Wake Island.[23] This marked the first time THAAD had intercepted a Medium Range Ballistic Missile (MRBM).[23] Two AN/TPY-2 were used in the $180M test, with the forward-based radar feeding data into Aegis and Patriot systems as well as THAAD.[24]
11 July 2017 Success FTT-18 (Flight Test THAAD 18): The FTT-18 test plan was announced to the public on 8 July 2017.[25] The first test of THAAD against an IRBM,[26] FTT-18 successfully occurred on 11 July 2017; an Alaska-based THAAD interceptor, launched from the Pacific Spaceport Complex – Alaska on Kodiak island, intercepted its target over Alaska airspace. The FTT-18 target simulated an intermediate-range ballistic missile. It was dropped from the cargo hold of a C-17 by parachute. The mock IRBM target was launched near Hawaii and aimed at Alaska.[27] [28]

THAAD-ER[edit]

Lockheed is pushing for funding for the development of an extended range (ER) version of the THAAD to counter maturing threats posed by hypersonic glide vehicles that adversaries may deploy, namely the Chinese WU-14, to penetrate the gap between low and high-altitude missile defenses. The company performed static fire trials of a modified THAAD booster in 2006 and continued to fund the project until 2008. The current 14.5 in (37 cm)-diameter single-stage booster design would be expanded to a 21 in (53 cm) first stage for greater range with a second "kick stage" to close the distance to the target and provide improved velocity at burnout and more lateral movement during an engagement. Although the kill vehicle would not need redesign, the ground-based launcher would have only five missiles instead of eight. As of early 2015 THAAD-ER is only an industry concept, but Lockheed believes the Missile Defense Agency will show interest because of the weapons under development by potential adversaries.[29] If funding for the THAAD-ER begins in 2018, a system could be produced by 2022 to provide an interim capability against a rudimentary hypersonic threat. The Pentagon is researching whether other technologies like directed energy weapons and railguns are better solutions for missile defense; these are expected to become available in the mid to late 2020's.[30]

Production and deployment[edit]

The AN/TPY-2 radar

Sometimes called Kinetic Kill technology, the THAAD missile destroys missiles by colliding with them, using hit-to-kill technology, like the MIM-104 Patriot PAC-3 (although the PAC-3 also contains a small explosive warhead). This is unlike the Patriot PAC-2 which carried only an explosive warhead detonated using a proximity fuse. Although the actual figures are classified, THAAD missiles have an estimated range of 125 miles (200 km), and can reach an altitude of 93 miles (150 km). A THAAD battery consists of at least six[31] launcher vehicles, each equipped with eight missiles, with two mobile tactical operations centers (TOCs) and the AN/TPY-2 ground-based radar (GBR);[32] the U.S. Army plans to field at least six THAAD batteries,[29] at a purchase cost of $800 million per battery.[33] By September 2018 MDA plans to deliver 52 more interceptors to the Army.[34]

The THAAD missile is manufactured at a Lockheed Martin facility near Troy, Alabama. The facility performs final integration, assembly and testing of the THAAD missile. The THAAD Radar is an X Band active electronically scanned array Radar developed and built by Raytheon at its Andover, Massachusetts Integrated Air Defense Facility. The THAAD radar and a variant developed as a forward sensor for ICBM missile defense, the Forward-Based X-Band – Transportable (FBX-T) radar, were assigned a common designator, AN/TPY-2,[35] in late 2006/ early 2007. The THAAD radar can interoperate with Aegis and Patriot systems, in a 3-layer antimissile defense.[36][37][38]

First units activated[edit]

On 28 May 2008, the U.S. Army activated Alpha Battery, 4th Air Defense Artillery Regiment (A-4),[39] 11th Air Defense Artillery Brigade at Fort Bliss, Texas. Battery A-4 is part of the 32nd Army Air & Missile Defense Command. At the time, the battery had 24 THAAD interceptors, three THAAD launchers based on the M1120 HEMTT Load Handling System, a THAAD Fire Control and a THAAD radar. Full fielding began in 2009.[40][41] On 16 October 2009, the U.S. Army and the Missile Defense Agency activated the second Terminal High Altitude Area Defense Battery, Alpha Battery, 2nd Air Defense Artillery Regiment (A-2), at Fort Bliss.[42]

On 15 August 2012, Lockheed received a $150 million contract from the Missile Defense Agency (MDA) to produce THAAD Weapon System launchers and fire control and communications equipment for the U.S. Army. The contract included 12 launchers, two fire control and communications units, and support equipment. The contract provided six launchers for THAAD Battery 5 and an additional three launchers each to Batteries 1 and 2. These deliveries will bring all batteries to the standard six launcher configuration.[43]

Deployments and orders[edit]

THAAD Energy Management Steering maneuver, used to burn excess propellant

In June 2009, the United States deployed a THAAD unit to Hawaii, along with the SBX sea-based radar, to defend against a possible North Korean launch targeting the archipelago.[44] In April 2013, the United States declared that Alpha Battery, 4th Air Defense Artillery Regiment (A-4), would be deployed to Guam to defend against a possible North Korean IRBM attack targeting the island.[45][46] In March 2014 Alpha Battery, 2nd ADA RGT (A-2), did a change of responsibility with A-4 and took over the Defense of Guam Mission. After a successful 12-month deployment by A-4, Delta 2 (D-2) took its place for a 12-month deployment.

The United Arab Emirates signed a deal to purchase the missile defense system on 25 December 2011.[47] United Arab Emirates (UAE) has graduated its first two THAAD unit classes at Fort Bliss in 2015, and in 2016.[48] Its first live-fire exercises with Patriot missiles took place in 2014.

A THAAD interceptor is launched from a THAAD battery during Flight Test Operational (FTO)-02 Event 2a where two air-launched ballistic missile targets were successfully intercepted in November 2015.

On 27 May 2013, Oman announced a deal for the acquisition of the THAAD air defense system.[49] The U.S. AN/TPY-2 early missile warning radar station on Mt. Keren in the Negev desert is the only active foreign military installation in Israel.[50] According to U.S. officials the AN/TPY-2 radar was deployed at Turkey's Kürecik Air Force base.[51] The radar was activated in January 2012.[52]

On 1 November 2015, a THAAD system was a key component of Campaign Fierce Sentry Flight Test Operational-02 Event 2 (FTO-02 E2), a complex $230 million U.S. military missile defense system test event conducted at Wake Island and the surrounding ocean areas.[53] The objective was to test the ability of the Aegis Ballistic Missile Defense and THAAD Weapon Systems to defeat a raid of three near-simultaneous air and missile targets, consisting of one medium-range ballistic missile, one short-range ballistic missile and one cruise missile target. During the test, a THAAD system on Wake Island detected and destroyed a short-range target simulating a short-range ballistic missile[53]:intercepts @1:13 & 3:12 that was launched by parachute ejected from a C-17 transport plane. At the same time, the THAAD system and the USS John Paul Jones guided missile destroyer both launched missiles to intercept a medium-range ballistic missile,[53]:intercepts @2:50 & 3:12 launched by parachute from a second C-17.[54][55] By March 2016, Army Space and Missile Defense Command was considering THAAD deployments to Europe with EUCOM and the Middle East with CENTCOM.[56]

In May 2017, the Pentagon proposed spending US$7.9 billion in its FY 2018 budget on missile defense which includes THAAD interceptors and Patriot interceptors, along with $1.5 billion for Ground-based Midcourse Defense (GMD) against intercontinental ballistic missiles.[57]

Korean peninsula[edit]

Two THAAD launchers shortly after being flown into South Korea in March 2017

On 17 October 2013, the South Korean military asked the Pentagon to provide information on the THAAD system concerning prices and capabilities as part of efforts to strengthen defenses against North Korean ballistic missiles.[58] However, South Korea decided it will develop its own indigenous long-range surface-to-air missile instead of buying the THAAD.[59] South Korean Defense Ministry officials previously requested information on the THAAD, as well as other missile interceptors like the Israeli Arrow 3, with the intention of researching systems for domestic technology development rather than for purchase. Officials did however state that American deployment of the THAAD system would help in countering North Korean missile threats.[60][61] Later South Korea announced it would be deploying THAAD by the end of 2017.[62] In May 2014, the Pentagon revealed it was studying sites to base THAAD batteries in South Korea.[63]

In February 2016, Chinese Foreign Minister Wang Yi expressed concerns that deployment of THAAD in South Korea, despite being directed at North Korea, could jeopardize China's "legitimate national security interests."[64] The major controversy among Chinese officials is that they believe the purpose of the THAAD system, "which detects and intercepts incoming missiles at high altitudes, is actually to track missiles launched from China" not from North Korea.[65] Chinese nuclear experts report that China is focused on the positioning of another THAAD radar system, this one on the Korean peninsula, for gleaning details about China's nuclear weapons delivery systems, such as THAAD's ability to distinguish which missiles might be carrying decoy warheads.[66][67]

In July 2016, American and South Korean military officials agreed to deploy the THAAD missile defense system in the country to counter North Korea's growing threats and use of ballistic missile and nuclear tests; each THAAD unit consists of six truck-mounted launchers, 48 interceptors, a fire control and communications unit, and an AN/TPY-2 radar.[68] Seongju County in North Gyeongsang Province was chosen as the site to base the THAAD, partly because it is out of range of North Korean rocket artillery along the DMZ,[69] which sparked protests from Seongju County residents from fear of the radiation emitted by the AN/TPY-2 radar.[70] On 30 September 2016, the U.S. and South Korea announced that THAAD would be relocated to Lotte Skyhill Seongju Country Club, farther from the town's main residential areas and higher in elevation, to alleviate concerns.[71][72]

On 6 March 2017, two THAAD launcher trucks arrived by air transport at Osan Air Base South Korea, for a deployment.[73][74][75][76] Earlier that day, North Korea had launched 4 missiles.[74][73] A Reuters article stated that with the THAAD defense system, a North Korean missile barrage would still pose a threat to South Korea,[77] while an article in the International Journal of Space Politics & Policy said that South Korean forces already possess Patriot systems for point defense and Aegis destroyers capable of stopping ballistic missiles that may come from the north,[37][page needed][original research?] in a three-layer antimissile defense for South Korea.[36] On 16 March 2017, a THAAD radar arrived in South Korea.[78] The THAAD system is kept at Osan Air Base[79] until the site where the system is due to be deployed is prepared, with an expected ready date of June 2017.[80] Osan Air Base has blast-hardened command posts with 3 levels of blast doors.[79]:minute 0:45

By 25 April 2017, six trailers carrying the THAAD radar, interceptor launchers, communications, and support equipment entered the Seongju site.[81][82] On 30 April 2017, it was reported that South Korea would bear the cost of the land and facilities for THAAD, while the US will pay for operating it.[83] On 2 May 2017, Moon Sang-gyun, with the South Korean Defense Ministry and Col. Robert Manning III, a spokesman for the U.S. military announced that the THAAD system in Seongju is operational and "has the ability to intercept North Korean missiles and defend South Korea."[84] It was reported that the system will not reach its full operational potential until later this year when additional elements of the system are onsite.[85] In June 2017 South Korea decided to halt further deployment.[86] The 35th Air Defense Artillery Brigade (United States) has integrated THAAD into its layered defense on the Korean Peninsula.[87]

Even in the face of a North Korean ICBM test on 4 July 2017, which newly threatens Alaska, a Kodiak, Alaska-based THAAD interceptor test (FTT-18)[34] against a simulated attack by an Intermediate Range Ballistic Missile had long been planned.[88] FTT-18 was successfully completed by Battery A-2 THAAD (Battery A, 2nd Air Defense Artillery Regiment, Terminal High Altitude Area Defense)[89] of the 11th Air Defense Artillery Brigade (United States) on 11 July 2017.[26][28] The soldiers used the procedures of an actual combat scenario and were not aware of the IRBM's launch time.[89]

Potential future deployment[edit]

Japan[edit]

In November 2015, Japanese Defense Minister Gen Nakatani said he would consider the U.S. deploying the THAAD in Japan to counter the threat of North Korean ballistic missiles.[90] By October 2016, Japan was considering procuring either THAAD or Aegis Ashore to add a new missile defense layer.[91]

At the Center for a New American Security 2017 conference, citing publicly available sources and simulations of strikes against US bases in Asia,[92] two Navy Fellows, Commanders Shugart and Gonzalez, USN noted that two more Patriot batteries, two more Aegis ships, and five more THAAD batteries would counter China's published SRBM and MRBM capabilities against Japan.[93]

Taiwan[edit]

A Hong Kong–based media report has claimed that THAAD could be deployed in Taiwan to intercept People's Republic of China missiles.[94] However, Taiwan's Foreign Minister, David Lee, has said he is unaware of any talks with the US about possible deployment. Local military experts have said that it was neither necessary, nor affordable for Taiwan to deploy THAAD because China is threatening Taiwan with short-range missiles, whereas THAAD is designed to shoot down medium and long-range missiles.[95] The Minister of National Defense, Feng Shih-kuan, said in March 2017 that he was firmly opposed the deployment of a THAAD system in Taiwan although comments made by Feng's deputy minister Cheng De-mei during a Foreign Affairs and National Defense Committee Q&A session that was held in April 2017 in which he said that Taiwan did not need a THAAD system in the short term because its US-made phased-array radar system at Hsinchu County’s Leshan base was on par with the THAAD system in terms of detection capability was described as "in slight contrast with Minister of National Defense Feng Shih-kuan’s last month."[96] It was reported that Freddy Lim urged the ministry during the same Q&A session "to procure whatever is necessary to ensure the nation’s defense capabilities, which could not be compromised due to China’s pressure."[96]

See also[edit]

References[edit]

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External links[edit]

DEM-VAL and EMD testing[edit]