Results 211 to 220 of about 48,835 (257)

Collectively-Modified Intermolecular Electron Correlations: The Connection of Polaritonic Chemistry and Spin Glass Physics. [PDF]

Chem Rev
Sidler D, Ruggenthaler M, Rubio A.
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Two Types of Non-Abelian Topological Phase Transitions Under Duality Mapping in 1D Photonic Chains. [PDF]

Adv Sci (Weinh)
Liu Y, Li Y, Chen J, Wang X, Zhang H, Guan F, Jiang X.   +6 more
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Conserved energy-momentum tensor for real-time lattice simulations. [PDF]

Eur Phys J C Part Fields
Boguslavski K, Lappi T, Peuron J, Singh P.   +3 more
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Revealing the topological nature of entangled orbital angular momentum states of light. [PDF]

Nat Commun
de Mello Koch R, Ornelas P, Gounden N, Lu BQ, Nape I, Forbes A.   +5 more
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Probing the Kitaev honeycomb model on a neutral-atom quantum computer. [PDF]

Nature
Evered SJ, Kalinowski M, Geim AA, Manovitz T, Bluvstein D, Li SH, Maskara N, Zhou H, Ebadi S, Xu M, Campo J, Cain M, Ostermann S, Yelin SF, Sachdev S, Greiner M, Vuletić V, Lukin MD.   +17 more
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Exploring Excited-State Electronic Structure, Spectroscopy, and Nonadiabatic Dynamics with CP2K's Multifaceted Approach. [PDF]

J Phys Chem A
Hanasaki K, de Jong TF, Komarov K, Kumar R, Mališ M, Mattiat J, Hernandez-Segura LI, Schreder L, Sinyavskiy A, Luber S.   +9 more
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Improved Hamiltonians for lattice gauge theory with fermions

Physical Review D, 1994
Several improved Hamiltonians for lattice gauge theory with fermions are proposed. A test of the Schwinger model and some applications to QCD are presented. The results for the mass spectrum indicate that the use of the improved Hamiltonians gives better results.
, Luo, , Chen, , Xu, , Jiang
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Hamiltonian formulation of Palumbo's noncompact lattice gauge theory

Physical Review D, 1994
We analyze Palumbo's noncompact, manifestly gauge-invariant, lattice gauge theory. Via the transfer matrix we construct from Palumbo's action the corresponding Hamiltonian. In the classical continuum limit we recover the Kogut-Susskind Hamiltonian. We also study the confinement structure of the theory by computing the Wilson loop in the strong coupling
, Diekmann, , Schütte, , Kröger
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Hamiltonian formulation of Wilson's lattice gauge theories

Physical Review D, 1975
Wilson's lattice gauge model is presented as a canonical Hamiltonian theory. The structure of the model is reduced to the interactions of an infinite collection of coupled rigid rotators. The gauge-invariant configuration space consists of a collection of strings with quarks at their ends. The strings are lines of non-Abelian electric flux.
John Kogut, Leonard Susskind
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