带电粒子在超品格量子阱沟道中的准沟道辐射

引入正弦平方势,在经典力学框架内,把粒子的运动方程化为标准的摆方程.用Jacobian椭圆函数和椭圆积分解析地给出了系统的解和粒子运动周期,并从方程的旋转周期解出发讨论了带电粒子的准沟道辐射.将准沟道辐射和沟道辐射进行了比较,发现二者的主要差别在于准沟道粒子的横向速度的平均值不为零,而它的辐射能量在k~c=0.5时,比沟道辐射大2.4倍.

Abstract：

In the frame of the classical mechanics the motion equation of particles is reduced to the pendulum equation by using the sine-squared potential. The solution of the equation and the period of the particle motion are expressed exactly by means of Jacobian elliptic function and the elliptic integral. The quasi-channeling radiation of the charged particles is discussed based on the rotational periodic solution. From the comparison between quasi-channeling radiation and channeling radiation, it is found that their main difference is that the average transverse velocity of the quasi-channeling particles is not zero,and its radiation energy is 2.4 times more than that of the channeling radiation if k~c =0.5.

Quasi-channeling Radiation of Charged Particle in Superlattice Quantum Well

In the frame of the classical mechanics the motion equation of particles is reduced to the pendulum equation by using the sine-squared potential. The solution of the equation and the period of the particle motion are expressed exactly by means of Jacobian elliptic function and the elliptic integral. The quasi-channeling radiation of the charged particles is discussed based on the rotational periodic solution. From the comparison between quasi-channeling radiation and channeling radiation, it is found that their main difference is that the average transverse velocity of the quasi-channeling particles is not zero,and its radiation energy is 2.4 times more than that of the channeling radiation if k~c =0.5.