Quantum paradox of choice: More freedom makes summoning a quantum state harder
2016; American Physical Society; Volume: 93; Issue: 6 Linguagem: Inglês
10.1103/physreva.93.062327
ISSN2469-9942
Autores Tópico(s)Quantum Computing Algorithms and Architecture
ResumoThe properties of quantum information in space-time can be investigated by studying operational tasks. In one such task, summoning, an unknown quantum state is supplied at one point, and a call is made at another for it to be returned at a third. Hayden-May recently proved necessary and sufficient conditions for guaranteeing successful return of a summoned state for finite sets of call and return points when there is a guarantee of at most one summons. We prove necessary and sufficient conditions when there may be several possible summonses and complying with any one constitutes success. We show there is a "quantum paradox of choice" in summoning: the extra freedom in completing the task makes it strictly harder. This intriguing result has practical applications for distributed quantum computing and cryptography and also implications for our understanding of relativistic quantum information and its localization in space-time.
Referência(s)