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   Cheng, Chuan; Frasinski, Leszek J.; Moğol, Gönenç; Allum, Felix; Howard, Andrew J.; Rolles, Daniel; Bucksbaum, Philip H.; Brouard, Mark; Forbes, Ruaridh; Weinacht, Thomas (March 2023, Physical Review Letters)
3. Cumulant methods for electron-phonon problems. I. Perturbative expansions

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4. Multiparticle cumulant mapping for Coulomb explosion imaging: Calculations and algorithm

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5. Spin adaptation of the cumulant expansions of reduced density matrices

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   Liebert, Julia; Schilling, Christian; Mazziotti, David A (July 2025, The Journal of Chemical Physics)

   We develop a systematic framework for the spin adaptation of the cumulants of p-particle reduced density matrices (RDMs), with explicit constructions for p = 1 to 3. These spin-adapted cumulants enable rigorous treatment of both Ŝz and Ŝ2 symmetries in quantum systems, providing a foundation for spin-resolved electronic structure methods. We show that complete spin adaptation—referred to as completeS-representability—can be enforced by constraining the variances of Ŝz and Ŝ2, which require the 2-RDM and 4-RDM, respectively. Importantly, the cumulants of RDMs scale linearly with system size—size-extensive—making them a natural object for incorporating spin symmetries in scalable electronic structure theories. The developed formalism is applicable to density-based methods, one-particle RDM functional theories, and two-particle RDM methods. We further extend the approach to spin–orbit-coupled systems via total angular momentum adaptation. Beyond spin, the framework enables the adaptation of RDM theories to additional symmetries through the construction of suitable irreducible tensor operators. 

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