1.
Collisional Energy Transfer with the Participation of the Excited Cs Atoms;
激发态Cs原子参与的碰撞能量转移
2.
Collisional Energy Transfer between Alkali Atoms and Alkali Molecules;
碱金属原子与分子间的碰撞能量转移
3.
Excitation Transfer in Rb(5D-7S)-He,Ar,H_2 Collisions
Rb(5D-7S)-He,Ar,H_2的碰撞能量转移
4.
Energy transfer in Cs(7D_J)+Cs(6S_(1/2)) collisions
Cs(7D_J)+Cs(6S_(1/2))间的碰撞能量转移
5.
Cross sections for energy transfer in collision between two excited state Cs(6P) atoms
激发态Cs(6P)原子间碰撞能量转移截面
6.
Increasing the collision energy is equivalent to studying the force at a shorter distance scale.
增加碰撞能量等于在研究更小尺度下的作用力。
7.
Theoretical Studies of Collision-induced Energy Transfer within Diatomic Molecules in Excited States;
双原子分子激发态碰撞能量转移的理论研究
8.
Collisional Energy Transfer between the High States of Alkali Molecule and Alkali Atoms;
高位碱分子态与碱原子间的碰撞能量转移
9.
Collisional Energy Transfer and Fine--structure Mixing of Alkali Molecules;
碱分子的碰撞能量转移和精细结构混合
10.
Collisional Energy Transfer between the Excitation States of Alkali Molecules and the Ground States of Alkali Atoms;
碱分子激发态与基态原子间的碰撞能量转移
11.
Reactive and Nonreactive Energy Transfer in Cs(6D_J)+(H_2,H_e) Collisions
Cs(6D_J)+(H_2,H_e)的反应与非反应碰撞能量转移
12.
Capacitor Energy Loss and Total Non-elastic Collision Energy Loss of Analog
电容器的能量损失与完全非弹性碰撞能量损失的类比
13.
In a frontal collision, the car′s nose will deform to absorb the impact energy.
在正面碰撞中,汽车前端会变形,来吸收撞击能量。
14.
Elastic collisions deplete very little of the electron's energy.
弹性碰撞中电子减少的能量非常少。
15.
Transverse Momentum Fluctuations in л~+p and K~+p Collisions at 250 GeV/c;
250GeV/c能量下л~+p和K~+p碰撞中的横动量起伏
16.
And could this jostling liberate those huge energies?
而这样的挤压碰撞能释放出如此巨大的能量吗?
17.
When the highly energized particles collide with atmospheric gases,
当这些高能量的粒子与大气层的气体发生碰撞,
18.
Research on Scaling p_T Distribution in High Energy Collisions;
高能碰撞中粒子横动量谱标度行为的研究