Flare (electronic warfare): Difference between revisions

From Citizendium
Jump to navigation Jump to search
m (Text replacement - "AN/" to "AN/")
mNo edit summary
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
{{subpages}}
{{PropDel}}<br><br>{{subpages}}
In [[electronic warfare]], which covers the entire [[electromagnetic spectrum]] including [[infrared light]], a '''flare (electronic warfare)''' is an expendable cartridge that, once leaving the launcher, burns brightly. Its principle is that it will be a more attractive source of infrared light to a heat-seeking missile.
In [[electronic warfare]], which covers the entire [[electromagnetic spectrum]] including [[infrared light]], a '''flare (electronic warfare)''' is an expendable cartridge that, once leaving the launcher, burns brightly. Its principle is that it will be a more attractive source of infrared light to a heat-seeking missile.


While they can be launched manually, military platform usually dispense flares from magazine-loaded, increasingly intelligent expendable coutermeasures devices such as the AN/ALE-47.  Such dispensers usually can release [[chaff (electronic warfare)]] in a cartridge with the same form factor as the flares, and even more expendable cartridges, such as radar jammers and intelligence sensors, are in the same package.
While they can be launched manually, military platform usually dispense flares from magazine-loaded, increasingly intelligent expendable coutermeasures devices such as the AN/ALE-47.  Such dispensers usually can release [[chaff (electronic warfare)]] in a cartridge with the same form factor as the flares, and even more expendable cartridges, such as radar jammers and intelligence sensors, are in the same package.


Flares may have to evolve beyond being a simple heat source, when missiles, which previously homed on the brightest wide-spectrum source of infrared light, now look for multiple infrared wavelengths, or, as with the [[FIM-92 Stinger]], for a combination of infrared and [[ultraviolet]] energy. While the first such flares burned [[magnesium]], most modern sensors would ignore such a primitive deception.
Flares may have to evolve beyond being a simple heat source, when missiles, which previously homed on the brightest wide-spectrum source of infrared light, now look for multiple infrared wavelengths, or, as with the [[FIM-92 Stinger]], for a combination of infrared and [[ultraviolet]] energy. While the first such flares burned [[magnesium]], most modern sensors would ignore such a primitive deception.[[Category:Suggestion Bot Tag]]

Latest revision as of 06:00, 17 August 2024

This article may be deleted soon.
To oppose or discuss a nomination, please go to CZ:Proposed for deletion and follow the instructions.

For the monthly nomination lists, see
Category:Articles for deletion.


This article is developing and not approved.
Main Article
Discussion
Related Articles  [?]
Bibliography  [?]
External Links  [?]
Citable Version  [?]
 
This editable Main Article is under development and subject to a disclaimer.

In electronic warfare, which covers the entire electromagnetic spectrum including infrared light, a flare (electronic warfare) is an expendable cartridge that, once leaving the launcher, burns brightly. Its principle is that it will be a more attractive source of infrared light to a heat-seeking missile.

While they can be launched manually, military platform usually dispense flares from magazine-loaded, increasingly intelligent expendable coutermeasures devices such as the AN/ALE-47. Such dispensers usually can release chaff (electronic warfare) in a cartridge with the same form factor as the flares, and even more expendable cartridges, such as radar jammers and intelligence sensors, are in the same package.

Flares may have to evolve beyond being a simple heat source, when missiles, which previously homed on the brightest wide-spectrum source of infrared light, now look for multiple infrared wavelengths, or, as with the FIM-92 Stinger, for a combination of infrared and ultraviolet energy. While the first such flares burned magnesium, most modern sensors would ignore such a primitive deception.