Origins in November 2005 The current effort to deploy Aegis ballistic missile defense (ABMD) was begun during the mid-1980s as part of President
Ronald Reagan's
Strategic Defense Initiative (SDI). The SDI plan was initially for a space-based
railgun system. However, technological constraints caused the system to be transformed into a surface-based system known as the
Lightweight Exo-Atmospheric Projectile (LEAP). The original testing of the LEAP was done as part of the Army LEAP program. Later, SDIO worked with the Navy to test the LEAP on the
Terrier missile. The Terrier LEAP demonstration program lasted from 1991 into 1995 and consisted of four flight tests. Two of these were intercept tests in early 1995; both failed to intercept—the first had a software error in the second-stage booster, the second had a
squib (pyrotechnic switch to connect power) in the kinetic kill vehicle that was mounted backwards and failed to fire.
Program history and development During the late 1990s, the
U.S. Navy was tasked to provide a weapon system for exploratory testing of LEAP. This phase was designated the Aegis LEAP Intercept (ALI) program. The program was for two successful intercepts in five attempts. On June 13, 2002, the second successful ALI intercept occurred during the FM-3 flight test mission. Initial Aegis BMD success may have contributed to President
George W. Bush's decision to deploy an emergency ballistic missile capability by late 2004. Upon the completion of the ALI program, Aegis BMD was transitioned to the production phase. The first Block I production
SM-3 was delivered in October 2004, and the Aegis 3.0 update was delivered in 2005. This system was given major new importance by President Obama in September 2009, when he announced plans to scrap the plans for a
missile defense site in Poland, in favor of missile defense systems located on U.S. Navy warships. On 18 September 2009, Russian Prime Minister
Vladimir Putin welcomed Obama's plans for missile defense which may include stationing American Aegis armed warships in the Black Sea, as these are likely to be less effective against Russia's missile attacks. In 2009 several
U.S. Navy ships were fitted with SM-3 missiles to serve this function, which complements the
Patriot systems already deployed by American units. Warships of Japan and Australia also have been given weapons and technology to enable them to participate as well. Current Aegis BMD hardware includes the SM-3 Block-1a missile and other improvements to the Aegis Weapons System. Future development of the Aegis BMD system includes Launch on Remote capability, upgraded SM-3 avionics and hardware, and an upgraded Aegis Weapon System. In 2012 Aegis Ballistic Missile Defense will merge with
Aegis Open Architecture and deliver the benefits of both platforms. The Launch on Remote capability involves the use of off-board sensors, such as the
Space Tracking and Surveillance System to provide a targeting solution for a SM-3 launch. As of 2022, variations of the Aegis BMD system currently in service are the 4.x, 5.x and 6.x. The improved versions are equipped with advanced processors and software, as well as upgraded variants of the SM-3 interceptor missile. BMD capable ships can have their BMD capabilities upgraded from earlier versions to later versions. BMD version 6.x comes with AN/SPY-6 radar in Flight III and Flight IIA destroyers. US Army
Integrated Air and Missile Defense Battle Command System (IBCS) program will integrate
MIM-104 Patriot,
NASAMS,
AN/TPY-2 and
F-35 Lightning II radars with Aegis radars to create a
plug and fight network of land, sea, and air-based sensors and aid surface-to-air Patriot and
THAAD launchers in anti-ballistic missile capabilities.
SM-3, SM-2 Block IV, SM-6 and GPI interceptors The Aegis BMD uses the
RIM-161 Standard Missile 3 mid-course interceptors and the
RIM-156 Standard Extended Range Block IV (SM-2ER Block IV) terminal-phase interceptors developed by Raytheon. The Standard Missile 3 is a development of the SM2-ER Block IV, capable of intercepting ballistic missiles above the atmosphere (i.e., exo-atmospheric intercept) during the midcourse phase of a hostile ballistic missile's flight. The missile is launched from the
Mk 41 Vertical Launching System (VLS) of the warships. It receives in-flight target updates from the ship. The kinetic warhead (KW) is designed to destroy a ballistic missile's warhead with more than 130 megajoules of kinetic energy by colliding with it. The existing SM-3 Block IA version will be upgraded to SM-3 Block IB, SM-3 Block IIA and SM-3 Block IIB to counter future ballistic missile threats. The SM-2ER Block IV can engage the ballistic missiles within the atmosphere (i.e., endoatmospheric intercept) in the terminal phase of a missile's trajectory. The missile carries a blast fragmentation warhead. The SM-2ER Block IV was further developed in a new extended range active missile,
RIM-174 Standard ERAM (Standard Missile 6), which adds an
active radar homing seeker. In January 2018 the Navy approved plans to develop a Dual Thrust Rocket Motor for the SM-6, with a larger 21-inch diameter to replace the current 13.5-inch propulsion package. The new rocket motor would sit atop the current 21-inch booster, producing a new variant of the missile: the SM-6 Block IB. In March 2018 the MDA announced it "is evaluating the technical feasibility of the capability of the SM-3 Block IIA missile, currently under development, against an ICBM-class target. If proven to be effective against an ICBM, this missile could add a layer of protection, augmenting the currently deployed GMD system." The MDA plans to conduct a demonstration of the SM-3 Block IIA against an ICBM-like target by the end of 2020.
Glide Phase Interceptor (GPI) will provide defense against
hypersonic weapons. Glide Phase Interceptor will be integrated with modified Baseline 9 Aegis Weapon System. In 2024, the Patriot PAC-3 was successfully tested with the Aegis system.
Aegis Ashore , Poland As of the
2014 NATO Wales summit a land-based component,
Aegis Ashore, was being developed. The first site to be declared operational was
Deveselu, Romania in 2016. This consists of equipment commonly used by the Navy being deployed in land-based facilities. This includes
SPY-1 radars and a battery of Standard Missile-3s. The
Obama administration's plan calls for two sites: the first in Romania at
Deveselu that was opened in May 2015 and the second in
Redzikowo, Poland (originally planned for 2018, opened in summer 2024 Some radar facilities will be placed in Turkey at a future date. On 21 May 2014, U.S. DOD headlined, "Standard Missile Completes First Test Launch from Aegis Ashore Test Site," and reported that: "The Missile Defense Agency, the U.S. Navy, and sailors at the Aegis Ashore Missile Defense Test Complex and
Pacific Missile Range Facility (PMRF), successfully conducted the first flight test involving components of the Aegis Ashore system. During the test, a simulated ballistic missile target was acquired, tracked, and engaged by the Aegis Weapon System. At approximately 7:35 p.m. Hawaii Standard Time, May 20 (1:35 a.m. EDT, May 21), the Aegis Weapon System fired a Standard Missile (SM)-3 Block IB guided missile from the Vertical Launch System. Several fire control and engagement functions were exercised during the test. A live target missile launch was not planned for this flight test." On 19 December 2017, the
Cabinet of Japan approved a plan to purchase two Aegis Ashore systems equipped with the
AN/SPY-7(V)1, based on Lockheed Martin's
LRDR to increase
Japan's self-defence capability against
North Korea, using
SM-3 Block IIA missiles, and also could work with
SM-6 interceptors capable of shooting down cruise missiles. The installation sites are at a
Ground Self-Defense Force training area in Araya District,
Akita Prefecture and the Mutsumi training area in
Hagi,
Yamaguchi Prefecture. On 15 June 2020, Japanese Defense Minister
Taro Kono announced that work had been halted on the deployment of the system because additional costs would be needed to ensure that residential buildings would not be hit by rocket boosters used to launch the missiles. Later in the month Japan's
National Security Council confirmed the cancellation of the plan. On 23 September 2020, Lockheed Martin commented that it would be expensive to potentially convert the AA system for maritime use since a revamp in the design is required. In July 2020
Admiral Philip S. Davidson, the head of
United States Indo-Pacific Command advised that he sought funding to construct an Aegis Ashore system in
Guam by 2026 both to defend existing U.S. military facilities on Guam and to provide offensive "long-range precision strike capability into the
First Island Chain" dominated by China. Speaking in March 2021 Davidson said that the "Guam Defense System" of an Aegis Ashore Facility would free up three
Arleigh Burke-class destroyers for service elsewhere. Davidson said that Chinese submarines and surface ships together with its ballistic missiles pose "a 360-degree threat" to Guam beyond the capabilities of the existing
Terminal High Altitude Area Defense system on Guam.
Developers and Contractors Notable subcontractors and technical experts include
Boeing Defense, Space & Security,
Alliant Techsystems (ATK),
Honeywell,
Engility,
Naval Surface Warfare Center,
SPAWAR Systems Center,
Johns Hopkins University Applied Physics Laboratory (JHU/APL), and the
Massachusetts Institute of Technology Lincoln Laboratory (Lincoln Lab). ==Deployment==