Electronic structure of strongly correlated materials / by 513745 Anisimov, V. I., Iziumov, I. U. A. 1933-

Towards TDDFT for Strongly Correlated Materials by Shree Ram Acharya, Volodymyr Turkowski, Talat S. Rahman

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Coherent control of the photoinduced transition in a strongly correlated material by Eduardo B. Molinero, Rui E. F. Silva

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Ab initio quantum simulation of strongly correlated materials with quantum embedding by Changsu Cao, Jinzhao Sun, Xiao Yuan, Han-Shi Hu, Hung Q. Pham, Dingshun Lv

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Nonadiabatic Exchange-Correlation Potential for Strongly Correlated Materials in the Weak and Strong Interaction Limits by Volodymyr Turkowski, Talat S. Rahman

Subjects: “…strongly correlated materials…”
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Investigation of the non-equilibrium state of strongly correlated materials by complementary ultrafast spectroscopy techniques by H Hedayat, C J Sayers, A Ceraso, J van Wezel, S R Clark, C Dallera, G Cerullo, E Da Como, E Carpene

“…Photoinduced non-thermal phase transitions are new paradigms of exotic non-equilibrium physics of strongly correlated materials. An ultrashort optical pulse can drive the system to a new order through complex microscopic interactions that do not occur in the equilibrium state. …”
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Quantum embedding method with transformer neural network quantum states for strongly correlated materials by Huan Ma, Honghui Shang, Jinlong Yang

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Fate of disorder-induced inhomogeneities in strongly correlated d-wave superconductors by Debmalya Chakraborty, Amit Ghosal

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Solving the Electronic Schrödinger Equation by Pairing Tensor-Network State with Neural Network Quantum State by Bowen Kan, Yingqi Tian, Daiyou Xie, Yangjun Wu, Yi Fan, Honghui Shang

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Recent Progress in First-Principles Methods for Computing the Electronic Structure of Correlated Materials by Fredrik Nilsson, Ferdi Aryasetiawan

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Dopant-site-dependent scattering by dislocations in epitaxial films of perovskite semiconductor BaSnO3 by Useong Kim, Chulkwon Park, Taewoo Ha, Rokyeon Kim, Hyo Sik Mun, Hoon Min Kim, Hyung Joon Kim, Tai Hoon Kim, Namwook Kim, Jaejun Yu, Kee Hoon Kim, Jae Hoon Kim, Kookrin Char

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Turning reduced density matrix theory into a practical tool for studying the Mott transition by Katarzyna Pernal

“…This is an important step toward providing an RDMFT–based computation tool for studying strongly correlated materials.…”
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Ultrafast Terahertz Spectroscopy for the Manipulation and Elucidation of Correlated Quantum Materials by Allington, Clifford

“…Strongly correlated materials exhibit exotic physical phases such as magnetism, superconductivity, or heavy fermion formation due to the strong interactions of electrons. …”
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Entanglement renormalization in interacting fermionic systems using single-particle transformations by Abolhassan Vaezi, Amirhossein Saedpanah

“…One of the most powerful and popular quantum entanglement-based computation methods for the simulation of one-dimensional and quasi-two-dimensional strongly correlated materials is the Density Matrix Renormalization Group (DMRG) technique. …”
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Ultrafast Terahertz Spectroscopy of Collective Excitations in Correlated Materials by Belvin, Carina Aiello

“…Strongly correlated materials exhibit a multitude of exotic phases of matter. …”
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Exploring frustration effects of strongly interacting bosons via the Hall response by Catalin-Mihai Halati, Thierry Giamarchi

“…This paves the way to employ the Hall response as a sensitive probe of many-body chiral quantum phases in strongly correlated materials.…”
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Single phase charge ordered stoichiometric CaFe3O5 with commensurate and incommensurate trimeron ordering by Simon J. Cassidy, Fabio Orlandi, Pascal Manuel, Simon J. Clarke

“…A significant challenge in understanding the behaviour of strongly correlated materials is their sensitivity to composition. …”
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Orbital and electronic entanglement in quantum teleportation schemes by Anna Galler, Patrik Thunström

“…Here, we analyze the formation of orbital (mode) and particle entanglement in strongly correlated materials due to the Coulomb interaction between the electrons. …”
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Research Update: Oxide thermoelectrics: Beyond the conventional design rules by Ichiro Terasaki

“…We also discuss the Kelvin formula as a promising expression for strongly correlated materials and show that the calculation based on the Kelvin formula can be directly compared with the cross-layer thermopower of layered materials.…”
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Machine-learning-assisted determination of electronic correlations from magnetic resonance by Anantha Rao, Stephen Carr, Charles Snider, D. E. Feldman, Chandrasekhar Ramanathan, V. F. Mitrović

“…Our work demonstrates the utility of artificial intelligence in the development of new probes of quantum systems, with applications to experimental studies of strongly correlated materials.…”
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