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We design adiabatic control functions, accelerated using the counterdiabatic driving, such that they are optimized for counteracting static errors and decoherence channels, and for realizing efficient population transfer. We investigate the optimization in different physical platforms, such as molecular states, superconducting qubits and Rydberg atoms. For the latter, we also propose a new compensation scheme for counteracting unitary errors exploiting inter-atomic interaction.

Ottimizzazione del trasferimento di stato quantistico

Michele, Delvecchio;
2023

Abstract

We design adiabatic control functions, accelerated using the counterdiabatic driving, such that they are optimized for counteracting static errors and decoherence channels, and for realizing efficient population transfer. We investigate the optimization in different physical platforms, such as molecular states, superconducting qubits and Rydberg atoms. For the latter, we also propose a new compensation scheme for counteracting unitary errors exploiting inter-atomic interaction.
22-giu-2023
ENG
Adiabatic control
FIS/03
Quantum control
Rydberg
counterdiabatic driving
quantum computing
quantum state transfer
Sandro, Wimberger
Università degli studi di Parma. Dipartimento di Scienze matematiche, fisiche e informatiche
Università degli Studi di Parma
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14242/193623
Il codice NBN di questa tesi è URN:NBN:IT:UNIPR-193623