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Simple Exchange-Correlation Energy Functionals for Strongly Coupled Light-Matter Systems based on the Fluctuation-Dissipation Theorem
TLDR
In this paper, the gradient-based density functional for the QEDFT exchange-correlation energy derived from the adiabatic-connection fluctuation-dissipation theorem was introduced.Abstract:
Recent experimental advances in strongly coupled light-matter systems has sparked the development of general ab-initio methods capable of describing interacting light-matter systems from first principles. One of these methods, quantum-electrodynamical density-functional theory (QEDFT), promises computationally efficient calculations for large correlated light-matter systems with the quality of the calculation depending on the underlying approximation for the exchange-correlation functional. So far no true density-functional approximation has been introduced limiting the efficient application of the theory. In this paper, we introduce the first gradient-based density functional for the QEDFT exchange-correlation energy derived from the adiabatic-connection fluctuation-dissipation theorem. We benchmark this simple-to-implement approximation on small systems in optical cavities and demonstrate its relatively low computational costs for fullerene molecules up to C$_{180}$ coupled to 400,000 photon modes in a dissipative optical cavity. This work now makes first principle calculations of much larger systems possible within the QEDFT framework effectively combining quantum optics with large-scale electronic structure theory.read more
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A perspective on <i>ab initio</i> modeling of polaritonic chemistry: The role of non-equilibrium effects and quantum collectivity
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Enhanced Diastereocontrol via Strong Light-Matter Interactions in an Optical Cavity.
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Real-space, real-time approach to quantum-electrodynamical time-dependent density functional theory.
TL;DR: In this article , the quantum-electrodynamical time-dependent density functional theory equations are solved by time propagating the wave function on a tensor product of a Fock-space and real-space grid.
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Making ab initio QED functional(s): Nonperturbative and photon-free effective frameworks for strong light-matter coupling.
TL;DR: In this article, a nonperturbative photon-free formulation of quantum electrodynamics (QED) in the long-wavelength limit is provided, which is formulated solely on the matter Hilbert space and can serve as an accurate starting point for such ab initio methods.
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Assessing the Effects of Orbital Relaxation and the Coherent-State Transformation in Quantum Electrodynamics Density Functional and Coupled-Cluster Theories.
TL;DR: In this paper , the authors consider two types of calculations, relaxed and unrelaxed QED-EOM-CC, and show that the latter is more accurate than the former.
References
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TL;DR: In this article, the Kohn-Sham method for energy calculation in inhomogeneous electron systems relies on a comparison of functionals describing interacting and noninteracting electrons, via an adiabatic connection of eigenstates.
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Random-phase approximation correlation methods for molecules and solids
TL;DR: In this paper, it was shown that the correlation energy within the adiabatic-connection fluctuation dissipation theorem is exact in a Kohn-Sham framework while for Hartree-Fock reference states this is not the case.
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Optimized Effective Potential for Quantum Electrodynamical Time-Dependent Density Functional Theory
Camilla Pellegrini,Johannes Flick,Ilya V. Tokatly,Ilya V. Tokatly,Heiko Appel,Angel Rubio,Angel Rubio +6 more
TL;DR: The present formalism opens the path to a first-principles description of correlated electron-photon systems, bridging the gap between electronic structure methods and quantum optics for real material applications.
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Intermolecular vibrational energy transfer enabled by microcavity strong light–matter coupling
Bo Xiang,Raphael F. Ribeiro,Matthew Du,Liying Chen,Zimo Yang,Jiaxi Wang,Joel Yuen-Zhou,Wei Xiong +7 more
TL;DR: Using pump-probe and two-dimensional infrared spectroscopy, it is found that the excitation of the upper polariton can efficiently relax to the acceptors within ~5 picoseconds, suggesting that the energy transfer is a polaritonic process.