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Complexity for charged thermofield double states

Mehregan Doroudiani, Ali Naseh, Reza Pirmoradian

2020Journal of High Energy Physics48 citationsDOIOpen Access PDF

Abstract

A bstract We study Nielsen’s circuit complexity for a charged thermofield double state (cTFD) of free complex scalar quantum field theory in the presence of background electric field. We show that the ratio of the complexity of formation for cTFD state to the thermo- dynamic entropy is finite and it depends just on the temperature and chemical potential. Moreover, this ratio smoothly approaches the value for real scalar theory. We compare our field theory calculations with holographic complexity of charged black holes and confirm that the same cost function which is used for neutral case continues to work in presence of U(1) background field. For t > 0, the complexity of cTFD state evolves in time and contrasts with holographic results, it saturates after a time of the order of inverse temper- ature. This discrepancy can be understood by the fact that holographic QFTs are actually strong interacting theories, not free ones.

Topics & Concepts

PhysicsHolographyScalar fieldThermal quantum field theoryQuantum mechanicsEntropy (arrow of time)Scalar (mathematics)Charged particleQuantum field theoryStatistical physicsTheoretical physicsHolographic principleInverseQuantumCircuit complexityState (computer science)Quantum electrodynamicsFunction (biology)Field (mathematics)Scalar field theoryElectric fieldOrder (exchange)Back-reactionBlack Holes and Theoretical PhysicsNoncommutative and Quantum Gravity TheoriesQuantum many-body systems
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