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ألاسم
إِثْآر ; اِنْتِقام ; ثَأْر ; خَصْم ; خَصِيم ; عادٍ ; عَدُوّ ; غَرِيم ; قِتْل ; قِصَاص ; مُتَخَاصِم ; مُتَقَاضٍ ; مُتَنَازِع ; مُخَاصِم ; مُخْتَصِم ; مُنْتَقِم ; نِقْمَة
ألاسم
إِثْآر ; اِنْتِقام ; ثَأْر ; خَصْم ; خَصِيم ; عادٍ ; عَدُوّ ; غَرِيم ; قِتْل ; قِصَاص ; مُتَخَاصِم ; مُتَقَاضٍ ; مُتَنَازِع ; مُخَاصِم ; مُخْتَصِم ; مُنْتَقِم ; نِقْمَة
Directional Infrared Counter Measures (DIRCM) are a class of anti-missile systems produced to protect aircraft from infrared homing missiles, primarily MANPADS and similar simple systems.
Earlier infrared countermeasures like flares or hot block systems that produce random flashes of IR light are semi- or omnidirectional. This results in the missile seeker receiving relatively little IR energy due to the inverse square law. DIRCM systems instead aim their IR output directly at the missile using some source of tracking information and a trainable emitter. This allows a relatively small device to overwhelm the missile seeker by focusing all of its output on it.
Examples are produced by many aerospace companies, such as Leonardo S.p.A., Elbit Systems, Northrop Grumman, ITT Corporation, and BAE Systems. A Russian example is the 101KS-O.