Hybrid Quantum-Classical Approach to Correlated Materials - INSPIRE

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Hybrid Quantum-Classical Approach to Correlated Materials

Bela Bauer
(
- Station Q, UCSB
)
,
Dave Wecker
(
- Microsoft, Redmond
)
,
Andrew J. Millis
(
- Columbia U.
)
,
Matthew B. Hastings
(
- Station Q, UCSB and
- Microsoft, Redmond
)
,
Matthias Troyer
(
- Microsoft, Redmond and
- Zurich, ETH
)

Sep 21, 2016

11 pages

Published in:

Phys.Rev.X 6 (2016) 3, 031045

Published: Sep 21, 2016

DOI:

10.1103/PhysRevX.6.031045

reference search202 citations

Citations per year

Abstract: (APS)

Quantum computers promise to shed light on many areas of research that have proven too computationally expensive even for current supercomputers. Researchers show how a hybrid quantum-classical approach can be used to simulate strongly correlated materials, such as high-temperature superconductors and transition-metal oxides.

Condensed Matter, Materials & Applied Physics
Quantum Information, Science & Technology
Quantum algorithms
Quantum computation
Complex materials
Strongly correlated systems
Density functional theory
Dynamical mean field theory
hybrid
superconductivity

References(57)

Figures(0)

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