Title: Influence of the nuclear magnetic field on electron-positron pair production in low-energy heavy-nuclei collisions Show Chinese title

Title: 核磁场对低能重核碰撞中电子-正电子对产生的影响

Abstract: Total and energy-angle differential probabilities of positrons created in slow collisions of two identical nuclei are calculated within relativistic two-center approach. The time-dependent Dirac equation is solved in the rotating frame using the generalized pseudospectral method in modified prolate spheroidal coordinates. The magnetic interaction induced by the motion of the nuclei is included in the Hamiltonian. The rotational coupling term is also taken into account. Angle-integrated and angle-resolved energy spectra of the emitted positrons are calculated by projecting the propagated wave function onto positive-energy plane-wave states. Our results show that the magnetic interaction leads to a slight increase in the critical internuclear distance and enhances the total positron yield by up to several percent. However, it does not qualitatively alter the energy or angular distributions of emitted positrons. The angular distributions remain nearly isotropic. The characteristic supercritical regime signatures, found in previous works, are preserved. Show Chinese abstract

Abstract: 总和以及能量-角度微分概率的正电子在两个相同核的慢碰撞中被计算，使用相对论双中心方法。 在旋转框架中求解时间依赖的狄拉克方程，使用改进的椭球坐标中的广义伪谱方法。 在哈密顿量中包括由核运动引起的磁相互作用。 也考虑了旋转耦合项。 通过将传播的波函数投影到正能平面波态上，计算发射正电子的积分角度和分辨角度的能量谱。 我们的结果表明，磁相互作用导致临界核间距离略有增加，并最多提高几个百分点的总正电子产率。 然而，它不会定性地改变发射正电子的能量或角度分布。 角度分布仍然接近各向同性。 在以前的研究中发现的特征超临界状态的标志仍然保留。