Controlling the Effective Hamiltonian of a Driven Quantum Superconducting Circuit
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Controlling the Effective Hamiltonian of a Driven Quantum Superconducting Circuit
Venkatraman, Jayameenakshi
Springer International Publishing AG
03/2025
190
Dura
9783031832697
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Chapter 1: Preamble.- Chapter 2: The squeeze-driven Kerr oscillator (SKO) implemented in a driven superconducting circuit.- Chapter 3: Representations and properties of the SKO.- Chapter 4: Experimental setup.- Chapter 5: Quantum tunneling observations in the ground state manifold of the SKO.- Chapter 6: Excited state manifold: spectral kissing, multilevel degeneracies, and their fingerprint on the qubit lifetime.- Chapter 7: A decoherence model for the SKO: an RWA model and treating effects beyond the RWA.- Chapter 8: Conclusions and future directions.
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effective Hamiltonian;superconducting circuit;Kerr oscillator;quantum double well;driven quantum system
Chapter 1: Preamble.- Chapter 2: The squeeze-driven Kerr oscillator (SKO) implemented in a driven superconducting circuit.- Chapter 3: Representations and properties of the SKO.- Chapter 4: Experimental setup.- Chapter 5: Quantum tunneling observations in the ground state manifold of the SKO.- Chapter 6: Excited state manifold: spectral kissing, multilevel degeneracies, and their fingerprint on the qubit lifetime.- Chapter 7: A decoherence model for the SKO: an RWA model and treating effects beyond the RWA.- Chapter 8: Conclusions and future directions.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
