Editing Infrared homing (section)

{{Short description|Weapon guidance system utilizing the target's infrared emissions to track it}}
{{Redirect|Heatseeker}}
{{Use American English|date=September 2024}}

[[Image:IRIS-T air-to-air-missile.jpg|thumb|300px|A modern [[German Air Force]] [[IRIS-T]] infrared homing air-to-air missile]]
[[File:Iris.ogg|thumb|Movement of the seeker head of the IRIS-T]]

'''Infrared homing''' is a [[Missile guidance#Passive homing|passive weapon guidance system]] which uses the [[infrared]] (IR) [[light emission]] from a target to track and follow it seamlessly.<ref>{{cite book |title=A Dictionary of Aviation |first=David W. |last=Wragg |isbn=9780850451634 |edition=first |publisher=Osprey |year=1973 |page=162}}</ref> Missiles which use infrared seeking are often referred to as "heat-seekers" since infrared is radiated strongly by hot bodies. Many objects such as people, vehicle engines and aircraft generate and emit heat and so are especially visible in the infrared [[wavelengths]] of light compared to objects in the background.

Infrared seekers are passive devices, which, unlike [[radar]], provide no indication that they are tracking a target. That makes them suitable for sneak attacks during visual encounters or over longer ranges when they are used with a [[forward looking infrared]] or similar cueing system. Heat-seekers are extremely effective: 90% of all [[timeline of United States military operations|United States air combat losses]] between 1984 and 2009 were caused by infrared-homing missiles.<ref>{{cite web
|first=Lauri |last=Turpin
|title=Large Aircraft Infrared Countermeasures-LAIRCM
|url=http://www.440aw.afrc.af.mil/news/story.asp?id=123147362
|website=440th Airlift Wing, USAF
|archive-url=https://web.archive.org/web/20100920035000/http://www.440aw.afrc.af.mil/news/story.asp?id=123147362
|archive-date=20 September 2010
|date=5 February 2009}}</ref> They are, however, subject to a number of simple countermeasures, most notably by [[Flare (countermeasure)|dropping flares]] behind the target to provide false heat sources. That works only if the pilot is aware of the missile and deploys the countermeasures on time. The sophistication of modern seekers has rendered these countermeasures increasingly ineffective.

The first IR devices were experimented with during [[World War II]]. During the war, German engineers were working on heat-seeking missiles and [[proximity fuse]]s but did not have time to complete development before the war ended. Truly practical designs did not become possible until the introduction of [[conical scanning]] and miniaturized [[vacuum tube]]s during the war. Anti-aircraft IR systems began in earnest in the late 1940s, but the electronics and the entire field of rocketry were so new that they required considerable development before the first examples entered service in the mid-1950s. The early examples had significant limitations and achieved very low success rates in combat during the 1960s. A new generation developed in the 1970s and the 1980s made great strides and significantly improved their lethality. The latest examples from the 1990s and on have the ability to attack targets out of their [[field of view]] (FOV) behind them and even to pick out vehicles on the ground.

IR seekers are also the basis for many [[semi-automatic command to line of sight]] (SACLOS) weapons. In this use, the seeker is mounted on a trainable platform on the launcher and the operator keeps it pointed in the general direction of the target manually, often using a small telescope. The seeker does not track the target, but the missile, often aided by [[flare]]s to provide a clean signal. The same guidance signals are generated and sent to the missile via thin wires or radio signals, guiding the missile into the center of the operator's telescope. SACLOS systems of this sort have been used both for [[anti-tank missile]]s and [[surface-to-air missile]]s, as well as other roles.

The infrared sensor package on the tip or head of a heat-seeking missile is known as the ''seeker head''. The [[Fox (code word)|NATO brevity code]] for an [[Air-to-air missile|air-to-air]] infrared-guided missile launch is ''[[Fox (code word)|Fox]] Two''.<ref name="Air Land Sea Application (ALSA) Center-1997">{{ Citation | title = MULTISERVICE AIR-AIR, AIR-SURFACE, SURFACE-AIR BREVITY CODES | publisher = Air Land Sea Application (ALSA) Center | pages = 6 | year = 1997 | url = http://www.dtic.mil/doctrine/jel/service_pubs/lbrevity.pdf | access-date = 2008-02-23 | url-status = dead | archive-url = https://web.archive.org/web/20120209014757/http://www.dtic.mil/doctrine/jel/service_pubs/lbrevity.pdf | archive-date = 2012-02-09 }}</ref>