Molecular One‐ and Two‐Qubit Systems with Very Long Coherence Times

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Abstract: General‐purpose quantum computation and quantum simulation require multi‐qubit architectures with precisely defined, robust interqubit interactions, coupled with local addressability. This is an unsolved challenge, primarily due to scalability issues. These issues often derive from poor control over interqubit interactions. Molecular systems are promising materials for the realization of large‐scale quantum architectures, due to their high degree of positionability and the possibility to precisely tailor interqubit interactions. The simplest quantum architecture is the two‐qubit system, with which quantum gate operations can be implemented. To be viable, a two‐qubit system must possess long coherence times, the interqubit interaction must be well defined and the two qubits must also be addressable individually within the same quantum manipulation sequence. Here results are presented on the investigation of the spin dynamics of chlorinated triphenylmethyl organic radicals, in particular the perchlorotriphenylmethyl (PTM) radical, a mono‐functionalized PTM, and a biradical PTM dimer. Extraordinarily long ensemble coherence times up to 148 µs are found at all temperatures below 100 K. Two‐qubit and, importantly, individual qubit addressability in the biradical system are demonstrated. These results underline the potential of molecular materials for the development of quantum architectures.

Standort
Deutsche Nationalbibliothek Frankfurt am Main
Umfang
Online-Ressource
Sprache
Englisch

Erschienen in
Molecular One‐ and Two‐Qubit Systems with Very Long Coherence Times ; day:27 ; month:07 ; year:2023 ; extent:11
Advanced materials ; (27.07.2023) (gesamt 11)

Urheber
Schäfter, Dennis
Wischnat, Jonathan
Tesi, Lorenzo
De Sousa, J. Alejandro
Little, Edmund
McGuire, Jake
Mas‐Torrent, Marta
Rovira, Concepció
Veciana, Jaume
Tuna, Floriana
Crivillers, Núria
Slageren, Joris van

DOI
10.1002/adma.202302114
URN
urn:nbn:de:101:1-2023072815272390924086
Rechteinformation
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Letzte Aktualisierung
14.08.2025, 10:45 MESZ

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Beteiligte

  • Schäfter, Dennis
  • Wischnat, Jonathan
  • Tesi, Lorenzo
  • De Sousa, J. Alejandro
  • Little, Edmund
  • McGuire, Jake
  • Mas‐Torrent, Marta
  • Rovira, Concepció
  • Veciana, Jaume
  • Tuna, Floriana
  • Crivillers, Núria
  • Slageren, Joris van

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