Collective quantization of axially symmetric gravitating B=2 skyrmion

Hisayuki Sato; Nobuyuki Sawado; and Noriko Shiiki

arXiv:hep-th/0609196·hep-th·November 26, 2008

Collective quantization of axially symmetric gravitating B=2 skyrmion

Hisayuki Sato, Nobuyuki Sawado, and Noriko Shiiki

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TL;DR

This paper performs collective quantization of an axially symmetric B=2 skyrmion to study how gravity influences the static properties of dibaryons like the deuteron, including masses and magnetic moments.

Contribution

It introduces a method to incorporate gravitational effects into the collective quantization of axially symmetric skyrmions with baryon number two.

Findings

01

Gravity affects the masses and magnetic moments of the skyrmion-based dibaryons.

02

Quantization yields static properties consistent with known deuteron features.

03

The approach provides insights into gravitational influences on nuclear objects.

Abstract

In this paper we perform collective quantization of an axially symmetric skyrmion with baryon number two.The rotational and isorotational modes are quantized to obtain the static properties of a deuteron and other dibaryonic objects such as masses, charge densities, magnetic moments. We discuss how the gravity affects to those observables.

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