1) decay probability
衰变几率(能)
2) level relaxation
能级的衰变率
3) geometric attenuation
几何衰减<能>
4) decay rate
衰变率
1.
We measured the variation of the decay rate of 7Be implanted in Pd and Au host materials by detecting the 478 keV γ ray emitted from deexcitation of the first excited state of 7Li which is produced by EC decay of 7Be with two HPGe detectors simultaneously,and found that the decay rate of 7Be in Pd is larger than that in Au by(0.
将HI-13串列加速器次级束流线产生的放射性核素7Be分别注入到Pd和Au中,利用两个高纯锗探测器同时测量7Be EC衰变核素7Li第一激发态放出的478 keVγ射线产额随时间的变化,发现7Be在Pd中的衰变率比在Au中大(0。
2.
We measured the variation of the decay rate of 7Be implanted in Pt and Al host materials by detecting the 478 keV γ-ray emitted from the first excited state of 7Li which is produced by EC decay of 7Be with two HPGe detectors simultaneously,and found no difference of 7Be decay rate in Pt from that in Al within our experimental error (<0.
14%)没有发现7Be衰变率在Pt与Al中有明显差别,讨论了这两种材料的电子亲和势及有效电子密度与EC衰变率的关系。
3.
It is suggest that the particle is the molecular state constructed by xc1 and ρ0;the molelular state model is applied to interpret the reason why the decay rate of Y(4260)→π+π-J /ψ is much larger than that of Y(4260)→DD.
对新发现的Y(4260)粒子进行了初步研究,提出该粒子是cχ1和0ρ构造的分子态,并利用分子态模型解释了为什么Y(4260)→π+-πJ/ψ的衰变会比Y(4260)→DD的衰变率大许多,同时预言伴随Y(4260)存在2个同位旋三重态。
5) β-decay rate
β衰变率
1.
Aiming at the low-energy reaction and Gamow-Teller resonant transition, the influence of electron screening on theβ-decay rate in stellar interior is investigated in this paper.
针对低能反应和共振跃迁,分析了在恒星内部电荷屏蔽对β衰变率的影响。
6) damping rate
衰变率
1.
We calculate the effective mass and damping rate in φ 3 6 theory at finite temperature by evaluating the real and imaginary parts of the one loop self energies at the hard thermal loop (HTL) approximation.
在有限温度下运用硬热圈近似求得 φ36 理论单圈自能 ,进而求得有限质量和衰变率 。
补充资料:激发几率
分子式:
CAS号:
性质:又称激发几率。处于低能级的原子受到外界热能、电能或光能激发时,可从较低能级跃迁到某一高能级,即被激发到激发态。在单位时间内从一个能级被激发到另一个能级的激发态原子数与激发前原能级上的原子总数之比,即激发概率。
CAS号:
性质:又称激发几率。处于低能级的原子受到外界热能、电能或光能激发时,可从较低能级跃迁到某一高能级,即被激发到激发态。在单位时间内从一个能级被激发到另一个能级的激发态原子数与激发前原能级上的原子总数之比,即激发概率。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条