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Covariant Local Matrix Density Approximation through Spectral Reconstruction in Multistate Density Functional Theory

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作者

    Alexander Humeniuk,  Yangyi Lu, 
    Yangyi Lu
    Jiali Gao
    Jiali Gao
分类
计算生物学与生物信息学
关键词
Quantum mechanics; excited states; multi-state density functional theory

摘要

A covariant local matrix density approximation (LMDA) is introduced within multistate density functional theory based on subspace invariance and the spectral decomposition of the matrix containing state and transition densities. The exchangecorrelation matrix functional is constructed through spectral reconstruction of this matrix density, whereby conventional local exchange-correlation functionals are incorporated as spectral-channel functionals within a covariant matrix-functional formalism. The resulting formulation preserves exact normalization of the exchange-correlation matrix hole, recovers Kohn-Sham density functional theory in the single-state limit, and preserves spin-multiplet degeneracy through covariance of the spin matrix functional under spin rotations. Combined with multistate self-consistent-field (MSSCF) optimization, the present framework enables fully variational calculations of interacting ground and excited states. Applications to atomic excitations, H2 dissociation, ethylene torsion and cyclobutadiene automerization reveals that the resulting MSDFT/LMDA approach captures essential multistate and strong-correlation physics, including static correlation and spin symmetry. The key insight is that the central obstacle in extending density functional theory to coupled electronic states is not necessarily the lack of appropriate scalar exchange-correlation approximations, but the lack of a covariant matrix-functional formalism in which such functionals can operate. The present MSDFT/LMDA provides a direct realization of this matrix-functional formalism.

参考文献

1. Lu, Y.; Gao, J. Multistate Density Functional Theory of Excited States. J. Phys. Chem. Lett. 2022, 13, 7762–7769.

2. Gao, J.; Lu, Y. Local Spectral Formulation of the One-Determines-All (ODA) Principle for Multistate Density Functionals. The Journal of Physical Chemistry Letters 2026, 17, 5639–5645, DOI: 10.1021/acs.jpclett.6c01125.

3. Lu, Y.; Gao, J. Multistate Density Functional Theory : Theory , Methods ,

and Applications. Wiley Interdiscip. Rev. Comput. Mol. Sci. 2025, 15, 1–35, DOI:

10.1002/wcms.70043.

4. Humeniuk, A. Approximate Functionals for Multistate Density Functional Theory. J. Chem. Theory Comput. 2024, 20, 5497–5509, DOI: 10.1021/acs.jctc.4c00330.

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DOI:

https://doi.org/10.65215/LTSpreprints.2026.06.09.000269

Submission ID:

269

下载次数

已发布

2026-06-11

如何引用

Humeniuk, A., Lu, Y., & Gao, J. (2026). Covariant Local Matrix Density Approximation through Spectral Reconstruction in Multistate Density Functional Theory. 浪淘沙预印本平台. https://doi.org/10.65215/LTSpreprints.2026.06.09.000269

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