Litcius/Paper detail

Quench dynamics and relaxation of a spin coupled to interacting leads

Helena Bragança, Moallison F. Cavalcante, Rodrigo G. Pereira, M. C. O. Aguiar

2021Physical review. B./Physical review. B15 citationsDOIOpen Access PDF

Abstract

We study a quantum quench in which a magnetic impurity is suddenly coupled to Hubbard chains, whose low-energy physics is described by Tomonaga-Luttinger liquid theory. Using the time-dependent density-matrix renormalization-group (tDMRG) technique, we analyze the propagation of charge, spin, and entanglement in the chains after the quench and relate the light-cone velocities to the dispersion of holons and spinons. We find that the local magnetization at the impurity site decays faster if we increase the interaction in the chains, even though the spin velocity decreases. We derive an analytical expression for the relaxation of the impurity magnetization which is in good agreement with the tDMRG results at intermediate timescales, providing valuable insight into the time evolution of the Kondo screening cloud in interacting systems.

Topics & Concepts

SpinonPhysicsCondensed matter physicsSpin (aerodynamics)MagnetizationRelaxation (psychology)Quantum entanglementImpurityCharge (physics)Renormalization groupDensity matrix renormalization groupQuantumQuantum mechanicsMagnetic fieldPsychologyAntiferromagnetismSocial psychologyThermodynamicsPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaQuantum many-body systems