这些探测器能捕捉两种类型的粒子作用:电子反冲与核反冲。
The detectors pick up two types of particle interactions: electron recoils and nuclear recoils.
例如,背景粒子和一个与中性伴子碰撞而反冲的原子核相比,前者将造成更多的游离。
For example, background particles tend to produce more ionization than a nucleus recoiling from a neutralino collision.
由于轻核质量轻,发射粒子后反冲效应很强,理论计算中还严格考虑了反冲效应的影响,从而保证了能量守恒。
Because of the light mass, the recoil effect is strong after the particle is emitted, so the recoil effect is must taken into account to maintain the energy balance.
中子通量用伴随粒子法测定,并与反冲质子望远镜相比较,两种方法在1—2%的误差范围内一致。
The associated particle method was used to determine the absolute neutron flux and compared with the recoil proton telescope. The agreement between both methods appeared to be within 1—2%.
中子通量用伴随粒子法测定,并与反冲质子望远镜相比较,两种方法在1—2%的误差范围内一致。
The associated particle method was used to determine the absolute neutron flux and compared with the recoil proton telescope. The agreement between both methods appeared to be within 1—2%.
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