Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient

Andratschke C, Brandt B, E. Garnacho-Velasco EG-V, Pannullo L, Singh S, Marques Valois AD (2026)
arXiv:2603.19156.

Preprint | Veröffentlicht | Englisch
 
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DOI
Autor*in
Andratschke, ChristianUniBi; Brandt, BastianUniBi; E. Garnacho-Velasco, E. Garnacho-Velasco; Pannullo, LaurinUniBi ; Singh, SimranUniBi; Marques Valois, Adeilton DeanUniBi
Einrichtung
Fakultät für Physik > AG Computersimulationen und Gitterfeldtheorie
Abstract / Bemerkung
Spectral reconstruction is a well studied numerically ill-posed problem which arises due to the relation of the Euclidean correlator to the spectral function via an inhomogeneous Fredholm equation of the first kind. Several different methods are on the market to resolve this issue, each taking different approaches and assumptions. In this proceedings we focus on implementing and testing a machine learning framework for spectral reconstruction, as well as implementing a novel method of estimating the behavior of the spectral function in the vicinity of vanishing frequency, which we denote as multipoint method, and compare these methods to well established spectral reconstruction techniques from the literature using mock data. As a physics application, we apply the reconstruction techniques to quenched lattice data for the correlation function in the vector channel at non-zero external magnetic field to extract the spectral function and the electric conductivity through its behaviour at vanishing frequency via a Kubo formula.
Erscheinungsjahr
2026
Zeitschriftentitel
arXiv:2603.19156
Page URI
https://pub.uni-bielefeld.de/record/3017078

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Andratschke C, Brandt B, E. Garnacho-Velasco EG-V, Pannullo L, Singh S, Marques Valois AD. Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient. arXiv:2603.19156. 2026.
Andratschke, C., Brandt, B., E. Garnacho-Velasco, E. G. - V., Pannullo, L., Singh, S., & Marques Valois, A. D. (2026). Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient. arXiv:2603.19156. https://doi.org/10.48550/arXiv.2603.19156
Andratschke, Christian, Brandt, Bastian, E. Garnacho-Velasco, E. Garnacho-Velasco, Pannullo, Laurin, Singh, Simran, and Marques Valois, Adeilton Dean. 2026. “Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient”. arXiv:2603.19156.
Andratschke, C., Brandt, B., E. Garnacho-Velasco, E. G. - V., Pannullo, L., Singh, S., and Marques Valois, A. D. (2026). Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient. arXiv:2603.19156.
Andratschke, C., et al., 2026. Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient. arXiv:2603.19156.
C. Andratschke, et al., “Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient”, arXiv:2603.19156, 2026.
Andratschke, C., Brandt, B., E. Garnacho-Velasco, E.G.-V., Pannullo, L., Singh, S., Marques Valois, A.D.: Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient. arXiv:2603.19156. (2026).
Andratschke, Christian, Brandt, Bastian, E. Garnacho-Velasco, E. Garnacho-Velasco, Pannullo, Laurin, Singh, Simran, and Marques Valois, Adeilton Dean. “Spectral reconstruction techniques, their shortcomings and relevance to the electric conductivity coefficient”. arXiv:2603.19156 (2026).
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