Abstract
Efficient and stable algorithms for the calculation of spectral quantities and correlation functions are some of the key tools in computational condensed-matter physics. In this paper basic properties and recent developments of Chebyshev expansion based algorithms and the kernel polynomial method are reviewed. Characterized by a resource consumption that scales linearly with the problem dimension these methods enjoyed growing popularity over the last decade and found broad application not only in physics. Representative examples from the fields of disordered systems, strongly correlated electrons, electron-phonon interaction, and quantum spin systems are discussed in detail. In addition, an illustration on how…
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1,052
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- FWCI
- 11.46
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- 100%
- References
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Authors
4Topics & keywords
Topics
Keywords
- Physics
- Chebyshev polynomials
- Kernel (algebra)
- Statistical physics
- Monte Carlo method
- Polynomial
- Perturbation theory (quantum mechanics)
- Quantum Monte Carlo
UN Sustainable Development Goals
- Decent work and economic growth
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