原子电子高能散射的终态相互作用

arXiv - PHYS - Atomic Physics Pub Date : 2024-07-31 DOI:arxiv-2407.21752

Ryan Plestid, Mark B. Wise

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引用次数: 0

摘要

我们考虑的是高能轻子对束缚原子电子的散射，主要侧重于终态相互作用，即流出的高能电子与终态中的重型残余带电 "碎片 "之间的虚光子交换。对于静止的自由电子来说，这些效应在计算中本来就不存在。原子碎片中的大量电子增强了库仑交换，碎片中的非相对论速度也不会抑制库仑交换。我们发现，这些交换可以用算子方法求和，并在至少 $O(\α^3)$ 之前在截面水平上抵消。此外，我们认为最终{\it和}初始状态的库仑交换（由θom中的电子数增强）在至少达到$O(\alpha^3)$之前都不会影响截面。与非相对论电子的横向光子耦合与其小位移成正比，旋转不变性抑制了它们对$O(\alpha^3)$的贡献。我们的结果与涉及中微子、电子、正电子和μ介子在固定靶内原子电子散射的精密实验有关。

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Final state interactions for high energy scattering off atomic electrons

We consider the scattering of high energy leptons off bound atomic electrons focusing primarily on final state interactions i.e., the exchange of virtual photons between the outgoing energetic electron, and the heavy residual charged "debris" in the final state. These effects are inherently absent from calculations for a free electron at rest. Coulomb exchanges are enhanced by the large number of electrons in the atomic debris, and are unsuppressed by non-relativistic velocities in the debris. We find that these exchanges can be resummed using operator methods, and cancel at the level of the cross section until at least $O(\alpha^3)$. Furthermore, we argue that both final {\it and} initial state Coulomb exchanges (enhanced by the number of electrons in the atom) do not affect the cross section until at least $O(\alpha^3)$. Transverse photon couplings to non relativistic electrons are proportional to their small velocities, and rotational invariance suppresses their contribution to $O(\alpha^3)$. Our results are relevant for precision experiments involving neutrinos, electrons, positrons, and muons scattering off of atomic electrons in a fixed target.

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arXiv - PHYS - Atomic Physics

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