Research Paper on Rate of the Low-Energy p+Hm! ( pp)a + m Reaction is Affected by the p-p Nuclear Interaction,

Description

Title: Rate of the Low-Energy p+Hm! ( pp)a + m Reaction is Affected by the p-p Nuclear Interaction,

Abstract: In a three-charge-particle system with arbitrary masses, the impact of an additional strong p-p nuclear interaction is examined. This paper specifically examines the p, m, and p system, where p is an antiproton, m is a muon, and p is a proton. The following protonium (antiprotonicydrogen) formation three-body reaction is computed numerically using a thorough few-body approach: p + Hm(1s)! ( ¯pp)a + m􀀀. Here, Hm(1s) is a muonic hydrogen in its ground state, which is a p and m bound state. A protonium atom in a quantum atomic state a, or Pn = ( pp)a, is a bound state of p and its antimatter counterpart p. In the context of coupled Faddeev-Hahn-type equations, the low-energy cross sections and rates of the Pn formation reaction are calculated. These calculations make use of a first order approximation to account for the strong p-p interaction. It was discovered that the three-body reaction’s rate is significantly corrected when the nuclear interaction is taken into account.

Keywords: slow antiprotons; muonic hydrogen; protonium; few-body systems

Paper Quality: SCOPUS / Web of Science Level Research Paper

Subject: Physics

Subject Category: Atomic and Molecular Physics, and Optics

Writer Experience: 20+ Years

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