Titlebook: Strongly Correlated Fermi Systems; A New State of Matte Miron Amusia,Vasily Shaginyan Book 2020 Springer Nature Switzerland AG 2020 New Sta

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Rearrangement of the Single-Particle Degrees of Freedom,nt of the Fermi surface in Fermi systems with strongly repulsive interaction, are analyzed. Beyond the FCQPT, the system is found to spontaneously separate into two subsystems, containing normal quasiparticles and the fermion condensate localized at the Fermi surface and associated with a completely

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Topological FCQPT in Strongly Correlated Fermi Systems,electrons, and within the framework of Gor’kov microscopic equations construct Green’s functions of FC state. On the other hand, our study can easily be generalized to 3D case. To show that there is no fundamental difference between the 2D and 3D cases, we derive Green’s functions for 3D case in Sec

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Dynamic Magnetic Susceptibility of Quantum Spin Liquid,ults show that the dynamic magnetic susceptibility behaves as that of HF metals. Therefore, two known classical types of magnetism (ferro- and antiferromagnetism) can be augmented by one more, caused not by the order of the magnetic moments of atoms, ions, or electrons, but by the “liquid” behavior

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Quantum Spin Liquid in Organic Insulators and ,uce important experimental facts shedding light on the nature of quantum spin liquid composed of spinons. We employ the model of strongly correlated quantum spin liquid located near the topological fermion condensation phase transition to analyze the exciting measurements of the low-temperature ther

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