Energetic cost of Hamiltonian quantum gates

Energetic cost of Hamiltonian quantum gates

Landauer's principle laid the main foundation for the development of modern thermodynamics of information. However, in its original inception the principle relies on semiformal arguments and dissipative dynamics. Hence, if and how Landauer's principle applies to unitary quantum computing i...

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Veröffentlicht in:Europhysics letters 2021-05, Vol.134 (4), p.40002
1. Verfasser: Deffner, Sebastian
Format: Artikel
Sprache:eng
Schlagworte:
Cost analysis
Error analysis
Error correcting codes
Error correction
Quantum computing
Qubits (quantum computing)
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Zusammenfassung:Landauer's principle laid the main foundation for the development of modern thermodynamics of information. However, in its original inception the principle relies on semiformal arguments and dissipative dynamics. Hence, if and how Landauer's principle applies to unitary quantum computing is less than obvious. Here, we prove an inequality bounding the change of Shannon information encoded in the logical quantum states by quantifying the energetic cost of Hamiltonian gate operations. The utility of this bound is demonstrated by outlining how it can be applied to identify energetically optimal quantum gates in theory and experiment. The analysis is concluded by discussing the energetic cost of quantum error correcting codes with non-interacting qubits, such as Shor's code.
ISSN:0295-5075
1286-4854
DOI:10.1209/0295-5075/134/40002