The YAL-1 with a low-power laser was test-fired in flight at an airborne target in 2007.[2] A high-energy laser was used to intercept a test target in January 2010,[3] and the following month, successfully destroyed two test missiles.[4] Funding for the program was cut in 2010 and the program was canceled in December 2011.[5] It made its final flight on February 14, 2012, to Davis–Monthan Air Force Base near Tucson, Arizona, to be kept in storage at the "boneyard" operated by the 309th Aerospace Maintenance and Regeneration Group. It was ultimately scrapped in September 2014 after all usable parts were removed.
Development
Origins
YAL-1 undergoing modification in November 2004, at Edwards AFBContractors dismantle the Boeing 747 fuselage portion of the System Integration Laboratory at the Birk Flight Test Center.
The Airborne Laser Laboratory was a less-powerful prototype installed in a Boeing NKC-135A. It shot down several missiles in tests conducted in the 1980s.[6]
The Airborne Laser program was initiated by the US Air Force in 1996 with the awarding of a product definition risk reduction contract to Boeing's ABL team.[7][8] In 2001, the program was transferred to the U.S. Missile Defense Agency (MDA) and converted to an acquisition program.[8]
The development of the system was being accomplished by a team of contractors. Boeing Defense, Space & Security provides the aircraft, the management team, and the systems integration processes. Northrop Grumman was supplying the COIL, and Lockheed Martin was supplying the nose turret and the fire control system.[8][9]
In 2001, a retired Air India 747-200 was acquired by the Air Force and trucked without its wings from the Mojave Airport to Edwards Air Force Base where the airframe was incorporated into the System Integration Laboratory (SIL) building at Edwards' Birk Flight Test Center, to be used to fit check and test the various components.[10][11] The SIL was built primarily to test the COIL at a simulated operational altitude, and during that phase of the program, the laser was operated over 50 times, achieving lasing durations representative of actual operational engagements. These tests fully qualified the system so that it could be integrated into the actual aircraft. Following the completion of the tests, the laboratory was dismantled, and the 747-200 fuselage was removed.[11]
Besides the COIL, the system also included two kilowatt-class Target Illuminator Lasers for target tracking. On March 15, 2007, the YAL-1 successfully fired this laser in flight, hitting its target. The target was an NC-135EBig Crow test aircraft that has been specially modified with a "signboard" target on its fuselage. The test validated the system's ability to track an airborne target and measure and compensate for atmospheric distortion.[9]
The next phase in the test program involved the "surrogate high-energy laser" (SHEL), a stand-in for the COIL, and demonstrated the transition from target illumination to simulated weapons firing. The COIL system was installed in the aircraft and was undergoing ground testing by July 2008.[12]
In an April 6, 2009 press conference, the Secretary of Defense Robert Gates recommended the cancellation of the planned second ABL aircraft and said that the program should return to a Research and Development effort. "The ABL program has significant affordability and technology problems and the program's proposed operational role is highly questionable," Gates said in making the recommendation.[13]
There was a test launch off the California coast on June 6, 2009.[14] At that time it was anticipated that the new Airborne Laser Aircraft could be ready for operation by 2013 after a successful test. On August 13, 2009, the first in-flight test of the YAL-1 culminated with a successful firing of the SHEL at an instrumented test missile.[15]
On August 18, 2009 the high-energy laser aboard the aircraft successfully fired in flight for the first time. The YAL-1 took off from Edwards Air Force Base and fired its high-energy laser while flying over the California High Desert. The laser was fired into an onboard calorimeter, which captured the beam and measured its power.[16]
In January 2010, the high-energy laser was used in-flight to intercept, although not destroy, a test Missile Alternative Range Target Instrument (MARTI) in the boost phase of flight.[3] On February 11, 2010, in a test at Point Mugu Naval Air Warfare Center-Weapons Division Sea Range off the central California coast, the system successfully destroyed a liquid-fuel boosting ballistic missile. Less than an hour after that first missile had been destroyed, a second missile—a solid-fuel design—had, as announced by the MDA, been "successfully engaged", but not destroyed, and that all test criteria had been met. The MDA announcement also noted that ABL had destroyed an identical solid-fuel missile in flight eight days earlier.[17] This test was the first time that a directed-energy system destroyed a ballistic missile in any phase of flight. It was later reported that the first February 11 engagement required 50% less dwell time than expected to destroy the missile, the second engagement on the solid-fuel missile, less than an hour later, had to be cut short before it could be destroyed because of a "beam misalignment" problem.[18][19]
Cancellation
In storage with engines removed. Ultimately broken up on 25 September 2014.
Secretary of Defense Gates summarized fundamental concerns with the practicality of the program concept:
I don't know anybody at the Department of Defense, Mr. Tiahrt, who thinks that this program should, or would, ever be operationally deployed. The reality is that you would need a laser something like 20 to 30 times more powerful than the chemical laser in the plane right now to be able to get any distance from the launch site to fire ... So, right now the ABL would have to orbit inside the borders of Iran in order to be able to try and use its laser to shoot down that missile in the boost phase. And if you were to operationalize this you would be looking at 10 to 20 747s, at a billion and a half dollars apiece, and $100 million a year to operate. And there's nobody in uniform that I know who believes that this is a workable concept.[20]
The Air Force did not request further funds for the Airborne Laser for 2010; Air Force Chief of Staff Schwartz has said that the system "does not reflect something that is operationally viable".[21][22]
In December 2011, it was reported that the project was to be ended after 16 years of development and a cost of over US$5 billion.[23][24] While in its current form, a relatively low power laser mounted on an unprotected airliner may not be a practical or defensible weapon, the YAL-1 testbed is considered to have proven that air mounted energy weapons with increased range and power could be another viable way of destroying otherwise very difficult to intercept sub-orbital ballistic missiles and rockets. On 12 February 2012, the YAL-1 flew its final flight and landed at Davis-Monthan AFB, Arizona, where it was placed in storage at the "boneyard" operated by the 309th Aerospace Maintenance and Regeneration Group until it was ultimately scrapped in September 2014 after all usable parts were removed.[25][26]
As of 2013, studies were underway to apply the lessons of the YAL-1 by mounting laser anti-missile defenses on unmanned combat aerial vehicles that could fly above the altitude limits of the converted jetliner.[27]
By 2015, the Missile Defense Agency had started efforts to deploy a laser on a high-altitude UAV. Rather than a manned jetliner containing chemical fuels flying at 40,000 feet (12 km), firing a megawatt laser from a range of "tens of kilometers" at a boost-phase missile, the new concept envisioned an unmanned aircraft carrying an electric laser flying at 65,000 feet (20 km), firing the same power level at targets potentially up to "hundreds of kilometers" away for survivability against air defenses. While the ABL's laser required 55 kg (121 lb) to generate one kW, the MDA wanted to reduce that to 2–5 kg (4.4–11.0 lb) per kW, totaling 5,000 lb (2,300 kg) for a megawatt. Unlike the ABL, which required its crew to rest and chemical fuel to be reloaded, an electric laser would need only power generating from fuel to fire, so a UAV with in-flight refueling could have near-inexhaustible endurance and armament. A "low-power demonstrator" was planned to fly sometime in or around 2021.[28] Challenges in reaching required power levels on a platform with sufficient performance led to the MDA choosing not to pursue the concept.[29]
Design
Artist impression of two YAL-1As shooting down ballistic missiles. The laser beams are highlighted red for visibility. (In reality, they would be invisible to the naked eye.)
COIL
The heart of the system was the COIL, comprising six interconnected modules, each as large as an SUV. Each module weighed about 6,500 pounds (3,000 kg). When fired, the laser used enough energy in a five-second burst to power a typical American household for more than an hour.[9]
Use against ICBMs vs TBMs
Laser Turret, said by the US Air Force to be the world's largest.
The ABL was designed for use against tactical ballistic missiles (TBMs). These have a shorter range and fly more slowly than ICBMs. The MDA had suggested the ABL might be used against ICBMs during their boost phase. This could require much longer flights to get in position, and might not be possible without flying over hostile territory. Liquid-fueled ICBMs, which have thinner skins, and remain in boost phase longer than TBMs, might be easier to destroy.[citation needed]
If the ABL had achieved its design goals, it could have destroyed liquid-fueled ICBMs up to 600 km away. Tougher solid-fueled ICBM destruction range would likely have been limited to 300 km, too short to be useful in many scenarios, according to a 2003 report by the American Physical Society on National Missile Defense.[30]
Intercept sequence
The ABL system used infrared sensors for initial missile detection. After initial detection, three low-power tracking lasers calculated missile course, speed, aimpoint, and air turbulence. Air turbulence deflects and distorts lasers. The ABL adaptive optics use the turbulence measurement to compensate for atmospheric errors. The main laser, located in a turret on the aircraft nose, could be fired for 3 to 5 seconds, causing the missile to break up in flight near the launch area. The ABL was not designed to intercept TBMs in the terminal or descending flight phase. Thus, the ABL would have had to be within a few hundred kilometers of the missile launch point. All of this would have occurred in approximately 8 to 12 seconds.[31]
Operational considerations
A technician evaluates the interaction of multiple lasers for use aboard the Airborne Laser.
The ABL did not burn through or disintegrate its target. It heated the missile skin, weakening it, causing failure from high-speed flight stress. The laser used chemical fuel similar to rocket propellant to generate the high laser power. Plans called for each 747 to carry enough laser fuel for about 20 shots, or perhaps as many as 40 low-power shots against fragile TBMs. To refuel the laser, YAL-1 would have to land. The aircraft itself could have been refueled in flight, which would have enabled it to stay aloft for long periods. Preliminary operational plans called for the ABL to be escorted by fighters and possibly electronic warfare aircraft. The ABL aircraft would likely have had to orbit near potential launch sites (located in hostile countries) for long periods, flying a figure-eight pattern that allows the aircraft to keep the laser aimed toward the missiles.[32]
Use against other targets
In theory, an airborne laser could be used against hostile fighter aircraft, cruise missiles, or even low-Earth-orbit satellites (see anti-satellite weapon). However, the YAL-1 infrared target acquisition system was designed to detect the hot exhaust of TBMs in boost phase. Satellites and other aircraft have a much lower heat signature, making them more difficult to detect. Aside from the difficulty of acquiring and tracking a different kind of target, ground targets such as armored vehicles and possibly even aircraft are not fragile enough to be damaged by a megawatt-class laser.
An analysis by the Union of Concerned Scientists discusses potential airborne laser use against low Earth orbit satellites.[33] Another program, the Advanced Tactical Laser, envisions air-to-ground use of a megawatt-class laser mounted on an aircraft better suited for low altitude flight.[34]
Teppei Koike小池徹平Informasi latar belakangLahir5 Januari 1986 (umur 38)Asal Osakasayama, Prefektur OsakaGenreJ-popPekerjaanpenyanyipemeranpencipta laguTahun aktif2002–sekarangArtis terkaitWaTSitus webSitus resmi Teppei Koike (小池 徹平code: ja is deprecated , Koike Teppei) (lahir 5 Januari 1986) adalah pemeran Jepang sekaligus penyanyi dan pencipta lagu. Salah seorang dari duo WaT bersama Eiji Wentz. Ia sekarang berada di bawah manajemen artis Burning Productions. Sewaktu ber...
يو كلير الإحداثيات 44°48′53″N 91°29′34″W / 44.814722222222°N 91.492777777778°W / 44.814722222222; -91.492777777778 [1] تقسيم إداري البلد الولايات المتحدة[2][3] التقسيم الأعلى مقاطعة يو كليرمقاطعة تشيبيوا عاصمة لـ مقاطعة يو كلير خصائص جغرافية المساحة 89.579141 كي...
River in New Hampshire, United StatesGale RiverThe Gale River in Franconia, New Hampshire, December 2007. In the distance are Mount Garfield and Mount Lafayette of the White Mountains.Show map of New HampshireShow map of the United StatesLocationCountryUnited StatesStateNew HampshireCountyGraftonTownsBethelhem, Franconia, Sugar Hill, LisbonPhysical characteristicsSourceConfluence of North and South branches • locationWhite Mountain National Forest • coordi...
Taman Nasional WasurIUCN Kategori II (Taman Nasional)Wasur NPLocation of Wasur NP in South PapuaLetakPapua Selatan, IndonesiaKota terdekatMeraukeKoordinat8°36′S 140°50′E / 8.600°S 140.833°E / -8.600; 140.833Koordinat: 8°36′S 140°50′E / 8.600°S 140.833°E / -8.600; 140.833Luas4,138 km²Didirikan1990Pihak pengelolaKementerian Lingkungan Hidup dan KehutananSitus webwww.tamannasionalwasur.com Taman Nasional Wasur adalah salah sat...
1937–1956 American comic book publisher For the United Kingdom comic book publisher formed in 1982, see Quality Communications. Quality ComicsGenreSuperhero, war, humor, romance, horrorPredecessorComic Favorites, Inc.Founded1937FounderEverett M. Busy ArnoldDefunctDecember 1956HeadquartersNew York City, U.S.Key peopleEisner & IgerProductsComic booksParentComic Magazines, Inc. Quality Comics was an American comic book publishing company which operated from 1937 to 1956 and was a creative,...
Halaman ini berisi artikel tentang keuskupan di Sisilia. Untuk tahta tituler di Siprus, lihat Keuskupan Agung Nicosia. Keuskupan NicosiaDioecesis Nicosiensis o HerbitensisKatolik Katedral NicosiaLokasiNegaraItaliaProvinsi gerejawiMessina-Lipari-Santa Lucia del MelaStatistikLuas1.475 km2 (570 sq mi)Populasi- Total- Katolik(per 2013)79.06878,727 (99.6%)Paroki40Imam55 (diosesan)6 (Ordo Relijius)7 Deakon PermanenInformasiDenominasiGereja KatolikRitusRitus RomaPe...
Constituency of the National Assembly of Pakistan NA-244 Karachi West-IConstituencyfor the National Assembly of PakistanRegionManghopir Town (partly) of Karachi West District in KarachiElectorate155,824 [1]Current constituencyCreated30 November 2023Member(s)Farooq SattarCreated fromNA-243 Karachi-V NA-244 Karachi West-I (این اے-244،کراچی مغربی-1) is a constituency for the National Assembly of Pakistan.[2] Area This constituency includes following Karachi neighb...
Dairy company in South Africa This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.Find sources: Clover Industries – news · newspapers · books · scholar · JSTOR (January 2021) (Learn how and when to remove this message) Clover Industries LimitedTrade nameCloverIndustryFast-moving consumer goodsHeadquartersJohannesburg, South A...
Soft boot worn by Arctic peoples This article needs attention from an expert in Arctic. The specific problem is: English online sources generally poor. WikiProject Arctic may be able to help recruit an expert. (December 2017) Two pair of sealskin kamiit. Left, winter kamik, right, summer kamik. Mukluks[1] or kamik (Inuktitut: ᑲᒥᒃ [kaˈmik][2]) (singular: ᑲᒪᒃ kamak, plural: ᑲᒦᑦ kamiit) are soft boots, traditionally made of reindeer (caribou) skin or se...
Irish footballer (born 1991) Conor Hourihane Hourihane with Aston Villa in May 2018Personal informationFull name Conor Geraroid Hourihane[1]Date of birth (1991-02-02) 2 February 1991 (age 33)[2]Place of birth Bandon, IrelandHeight 1.80 m (5 ft 11 in)[3]Position(s) Central midfielder[4]Team informationCurrent team Derby CountyNumber 4Youth career2007–2009 SunderlandSenior career*Years Team Apps (Gls)2009–2010 Sunderland 0 (0)2010–2011 I...
نهر سيتيت المنطقة البلد إريتريا إثيوبيا السودان الخصائص الطول 608 كم التصريف 3 مليار متر مكعب المجرى المنبع الرئيسي جبل غوشان في إثيوبيا الارتفاع 1500متر » الإحداثيات 14°10′N 36°00′E / 14.167°N 36.000°E / 14.167; 36.000 التقاء المنابع نهر عطبرة المصب نهر عطبرة – نهر الني...
район / муниципальный округВурнарский район/ муниципальный округчуваш. Вăрнар районĕ Флаг Герб 55°30′00″ с. ш. 46°55′00″ в. д.HGЯO Страна Россия Входит в Чувашию Включает 102 населённых пункта Адм. центр посёлок Вурнары Глава муниципального округа Никандрова Наде�...
Historic house in Massachusetts, United States United States historic placeThe ParsonageU.S. National Register of Historic PlacesU.S. National Historic LandmarkU.S. Historic districtContributing property The Parsonage in 1972Show map of MassachusettsShow map of the United StatesLocationNatick, MassachusettsCoordinates42°16′15″N 71°18′54″W / 42.27083°N 71.31500°W / 42.27083; -71.31500Built1866Part ofJohn Eliot Historic District (ID83000812)NRHP referenc...
丹尼尔·阿拉普·莫伊Daniel arap Moi肯尼亚总统任期1978年8月22日—2002年12月30日副总统姆瓦伊·齐贝吉约瑟夫在·卡兰贾乔治·赛托蒂穆萨利亚·穆达瓦迪前任乔莫·肯雅塔继任姆瓦伊·齐贝吉非洲统一组织主席任期1981年6月24日—1983年6月6日前任西亚卡·史蒂文斯继任门格斯图·海尔·马里亚姆第3肯尼亚副总统任期1967年1月5日—1978年8月22日总统乔莫·肯雅塔前任约瑟夫·穆伦比继任�...
مجلس العائلة المالكة السعودية مجلس العائلة المالكة السعودية تفاصيل الوكالة الحكومية البلد السعودية صلاحياتها تتبع آل سعود المركز الرياض ، السعودية الإدارة تعديل مصدري - تعديل مجلس العائلة المالكة السعودية هو مجلس يهتم بشؤون عائلة وأسرة آل سعود. أول أمير لمجلس ...
This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these template messages) This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.Find sources: Trombay – news · newspapers · books · scholar · JSTOR (September 2010) (Learn how and when to remove this m...
No debe confundirse con el papa Clemente VII. Clemente VII Clemente VII representado en una miniatura del siglo xv, Biblioteca Nacional de Francia Antipapa de la Iglesia católica 20 de septiembre de 1378-16 de septiembre de 1394Predecesor Nicolás VSucesor Benedicto XIII de AviñónInformación religiosaProclamación cardenalicia 30 de mayo de 1371 por Gregorio XIInformación personalNombre Robert de GenèveNacimiento 1342Annecy, Reino de FranciaFallecimiento 16 de septiembre de 1394 (5...
