Litcius/Paper detail

Thermal local quantum uncertainty in a two-qubit-superconducting system under decoherence

Mohammad Reza Pourkarimi, Saeed Haddadi, M. Nashaat, K. V. Kulikov, Yu. M. Shukrinov

2023Alexandria Engineering Journal12 citationsDOIOpen Access PDF

Abstract

By considering the local quantum uncertainty (LQU) as a measure of quantum correlations, the thermal evolution of a two-qubit-superconducting system is investigated. We show that the thermal LQU can be increased by manipulating the Hamiltonian parameters such as the mutual coupling and Josephson energies, however, it undergoes sudden transitions at specific temperatures. Furthermore, a detailed analysis is presented regarding the impact of decohering channels on thermal LQU. This controllable LQU in engineering applications can disclose the advantage enabled in the superconducting charge qubits for designing quantum computers and quantum batteries.

Topics & Concepts

QubitSuperconducting quantum computingQuantum decoherencePhysicsCharge qubitFlux qubitSuperconductivityQuantum mechanicsHamiltonian (control theory)QuantumPhase qubitThermalThermal fluctuationsQuantum systemMathematicsMathematical optimizationMeteorologyQuantum Information and CryptographyQuantum and electron transport phenomenaQuantum Computing Algorithms and Architecture
Thermal local quantum uncertainty in a two-qubit-superconducting system under decoherence | Litcius