# Quantum Calculation of the Collision-Induced Line-Shape Effects in Antiprotonic Helium and the New Accurate Ab Initio  p̅He+ –He Potential Energy Surface

**Authors:** Hubert J. Jóźwiak, Dimitar Bakalov, Michał Przybytek, Michail Stoilov, Piotr Wcisło

PMC · DOI: 10.1021/acs.jctc.5c01636 · 2025-12-28

## TL;DR

This paper calculates how helium atoms affect the spectral lines of antiprotonic helium, using new quantum methods to improve precision in measuring fundamental symmetries.

## Contribution

The paper introduces a new ab initio potential energy surface and quantum framework for studying antiprotonic helium with high accuracy.

## Key findings

- A new potential energy surface was developed for p̅He+–He interactions.
- Quantum scattering calculations provided pressure broadening and shift coefficients for 50 transitions in p̅4He+.
- The results support high-precision spectroscopy for testing CPT symmetry and determining pion and kaon masses.

## Abstract

We present the first fully ab initio calculations of
collision-induced
broadening and shift of spectral lines in antiprotonic helium 
(p̅He+)
 perturbed by atomic helium. To overcome
critical limitations of previous studies, we construct a new highly
accurate potential energy surface (PES) that spans a wide range of 
p̅He+
–He geometries relevant to all metastable
states of the exotic helium atom. Rigorous quantum scattering calculations
performed using the new PES yield scattering S-matrices
from which we extract pressure broadening and shift coefficients for
50 transitions in antiprotonic helium-4 
(p̅4He+)
. This data set provides the first rigorous
benchmark for earlier semiclassical calculations and establishes a
robust theoretical reference for high-precision spectroscopy of antiprotonic
helium, which is used to test the fundamental charge, parity, and
time reversal (CPT) symmetry. The results extend to temperatures relevant
to nongaseous phases of helium, supporting a new class of precision
measurements. This study introduces a methodological framework for
future investigations of other exotic systems, such as pionic or kaonic
helium atoms, enabling the development of reference data for high-precision
spectroscopy of these speciesan essential component for improving
the determination of the pion and kaon masses.

## Full-text entities

- **Chemicals:** Antiprotonic Helium (-), He (MESH:D006371)

## Figures

50 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12805563/full.md

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Source: https://tomesphere.com/paper/PMC12805563