Spin-Hamilton Operator, Graviton-Photon Coupling and an Eigenvalue   Problem

Yorick Hardy; Willi-Hans Steeb

arXiv:1209.6494·math-ph·June 7, 2013

Spin-Hamilton Operator, Graviton-Photon Coupling and an Eigenvalue Problem

Yorick Hardy, Willi-Hans Steeb

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TL;DR

This paper presents an exact solution to the eigenvalue problem of a spin Hamiltonian modeling graviton-photon interactions, explores entanglement properties, and compares with other spin-coupled Hamiltonians involving different spins.

Contribution

It provides the first exact solutions for a graviton-photon coupled spin Hamiltonian and analyzes entanglement, expanding understanding of spin interactions in quantum gravity contexts.

Findings

01

Exact eigenvalues for the graviton-photon Hamiltonian.

02

Analysis of entanglement in eigenstates.

03

Comparison with other spin-coupled Hamiltonians.

Abstract

We solve exactly the eigenvalue problem for a spin Hamilton operator describing graviton-photon coupling. Entanglement of the eigenstates are also studied. Other spin-coupled Hamilton operators involving spin-1 and spin-2 are also investigated and compared.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum Information and Cryptography · Noncommutative and Quantum Gravity Theories