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Auteurs principaux: Giraud, B. G., Karataglidis, S., Murulane, K., Peschanski, R.
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2511.20381
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author Giraud, B. G.
Karataglidis, S.
Murulane, K.
Peschanski, R.
author_facet Giraud, B. G.
Karataglidis, S.
Murulane, K.
Peschanski, R.
contents The approximate representation of operators by finite matrices is analysed in terms of accuracy and convergence. The identity operator, for example, can be reconstructed using a basis of harmonic oscillator states leading to a narrow peak approximation of the $δ$ function, but this peak may be perturbed by small, residual, oscillations. The peak does not shrink nor grows quickly, and the oscillations only diminish slowly as the size of the matrix increases. For the kinetic energy operator, a triple peak (one positive, two negative) representation of $-δ''$ is obtained, but that is affected also by residual oscillations. Again, convergence is slow as the matrix dimension increases. We find compact formulas to explain such oscillations. Similar observations are found for representations of local interactions, while separable potentials are better represented. As a comparison, in the context of a toy model, the effects of choosing an alternative single particle basis are studied. A formal approach for the approximation of operators is considered for comparison. We conclude with a word of caution for (finite) matrix approximations of operators.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20381
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Matrix approximations of operators
Giraud, B. G.
Karataglidis, S.
Murulane, K.
Peschanski, R.
Mathematical Physics
High Energy Physics - Theory
Nuclear Theory
The approximate representation of operators by finite matrices is analysed in terms of accuracy and convergence. The identity operator, for example, can be reconstructed using a basis of harmonic oscillator states leading to a narrow peak approximation of the $δ$ function, but this peak may be perturbed by small, residual, oscillations. The peak does not shrink nor grows quickly, and the oscillations only diminish slowly as the size of the matrix increases. For the kinetic energy operator, a triple peak (one positive, two negative) representation of $-δ''$ is obtained, but that is affected also by residual oscillations. Again, convergence is slow as the matrix dimension increases. We find compact formulas to explain such oscillations. Similar observations are found for representations of local interactions, while separable potentials are better represented. As a comparison, in the context of a toy model, the effects of choosing an alternative single particle basis are studied. A formal approach for the approximation of operators is considered for comparison. We conclude with a word of caution for (finite) matrix approximations of operators.
title Matrix approximations of operators
topic Mathematical Physics
High Energy Physics - Theory
Nuclear Theory
url https://arxiv.org/abs/2511.20381