曾提出用激光照射使寻的导弹命中目标,但是,迄今这种方案仍有许多缺点。使用连续波激光器的缺点是,为克服背景噪声和其它噪声需要保持高输出功率有困难,或者不能实现。脉冲激光器在脉冲过程中能够提供高的输出功率,但是对这种脉冲反射回的激光响应的探测器将会受脉冲之间背景噪声的影响。这两种激光照射方案的特点是,采用对抗措施来对抗它比较容易。具有适当波长的烟火或假目标就能把寻的导弹诱开真实目标。即使采用脉冲激光照射器,假目标也仍然有效,事实上,寻的导弹寻的连续波假目标比寻的脉冲反射激光照射更为容易。本专利克服了上述激光照射器的缺陷,办法是使寻的导弹上的探测器与来自激光器的照射脉冲同步。就是说,导弹上的探测器只有在照射脉冲后的某一时间(即当反射脉 The goal of targeting missiles with laser irradiation has been proposed, but so far there are still many disadvantages to this solution. The disadvantage of using CW lasers is that it is difficult or impossible to maintain high output power to overcome background noise and other noises. Pulsed lasers provide high output power during pulsing, but detectors of the laser response reflected by such pulses will be affected by the background noise between the pulses. The two laser irradiation program is characterized by the use of countermeasures to combat it easier. A pyrotechnic or fake target with the proper wavelength can lure the seeker into a real target. Even with pulsed laser illuminator, the false target is still valid. In fact, it is easier to find the continuous false target of the missile than to find the pulse reflected laser. This patent overcomes the above mentioned drawbacks of laser irradiators by synchronizing the detectors on the seeker’s missiles with the impinging pulses from the laser. In other words, the missile on the probe only at some time after the irradiation pulse (ie when the reflection pulse