On the treatment of ℓ-changing proton-hydrogen Rydberg atom collisions

Daniel Vrinceanu; R. Onofrio; H. R. Sadeghpour

On the treatment of ℓ-changing proton-hydrogen Rydberg atom collisions

Daniel Vrinceanu, R. Onofrio, H. R. Sadeghpour

Thurgood Marshall School of Law

Research output: Contribution to journal › Article › peer-review

Abstract

<p> Energy-conserving, angular momentum changing collisions between protons and highly excited Rydberg hydrogen atoms are important for precise understanding of atomic recombination at the photon decoupling era and the elemental abundance after primordial nucleosynthesis. Early approaches to &ell;-changing collisions used perturbation theory only for dipole-allowed (Δ&ell;=±1) transitions. An exact non-perturbative quantum mechanical treatment is possible, but it comes at a computational cost for highly excited Rydberg states. In this paper, we show how to obtain a semiclassical limit that is accurate and simple, and develop further physical insights afforded by the non-perturbative quantum mechanical treatment.</p>

Original language	American English
Journal	Default journal
State	Published - Jan 1 2017

Keywords

Cosmology: observations
ISM: abundances
ISM: atoms
Primordial nucleosynthesis

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https://doi.org/10.1093/MNRAS/STX1783

Cite this

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abstract = " Energy-conserving, angular momentum changing collisions between protons and highly excited Rydberg hydrogen atoms are important for precise understanding of atomic recombination at the photon decoupling era and the elemental abundance after primordial nucleosynthesis. Early approaches to &ell;-changing collisions used perturbation theory only for dipole-allowed (Δ&ell;=±1) transitions. An exact non-perturbative quantum mechanical treatment is possible, but it comes at a computational cost for highly excited Rydberg states. In this paper, we show how to obtain a semiclassical limit that is accurate and simple, and develop further physical insights afforded by the non-perturbative quantum mechanical treatment.",

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AU - Vrinceanu, Daniel

AU - Onofrio, R.

AU - Sadeghpour, H. R.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Energy-conserving, angular momentum changing collisions between protons and highly excited Rydberg hydrogen atoms are important for precise understanding of atomic recombination at the photon decoupling era and the elemental abundance after primordial nucleosynthesis. Early approaches to &ell;-changing collisions used perturbation theory only for dipole-allowed (Δ&ell;=±1) transitions. An exact non-perturbative quantum mechanical treatment is possible, but it comes at a computational cost for highly excited Rydberg states. In this paper, we show how to obtain a semiclassical limit that is accurate and simple, and develop further physical insights afforded by the non-perturbative quantum mechanical treatment.

AB - Energy-conserving, angular momentum changing collisions between protons and highly excited Rydberg hydrogen atoms are important for precise understanding of atomic recombination at the photon decoupling era and the elemental abundance after primordial nucleosynthesis. Early approaches to &ell;-changing collisions used perturbation theory only for dipole-allowed (Δ&ell;=±1) transitions. An exact non-perturbative quantum mechanical treatment is possible, but it comes at a computational cost for highly excited Rydberg states. In this paper, we show how to obtain a semiclassical limit that is accurate and simple, and develop further physical insights afforded by the non-perturbative quantum mechanical treatment.

KW - Cosmology: observations

KW - ISM: abundances

KW - ISM: atoms

KW - Primordial nucleosynthesis

UR - https://digitalscholarship.tsu.edu/facpubs/207

UR - https://doi.org/10.1093/MNRAS/STX1783

M3 - Article

JO - Default journal

JF - Default journal

ER -

On the treatment of ℓ-changing proton-hydrogen Rydberg atom collisions

Abstract

Keywords

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