Journal
SCIENCE
Volume 372, Issue 6539, Pages 253-+Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.abb2823
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Funding
- NSF [RAISE DMR-1839199, DMR-1752047]
- Army Research Laboratory's Center for Distributed Quantum Information [W911NF-15-2-0060]
- Horizon 2020 Framework Programme [820445]
- Austrian Science Fund [F 7109]
- Samsung Science and Technology Foundation [SSTF-BA1502-03]
- National Research Foundation of Korea - Korean government (MSIT) [2018R1A2A3075438, 2019M3E4A1080144, 2019M3E4A1080145, 2019R1A5A1027055]
- Creative Pioneering Researchers Program through Seoul National University
- Institute for Quantum Matter under DOE EFRC grant [DE-SC0019331]
- QNEXT DOE National Quantum Information Science Research Centers
- Penn State Two-Dimensional Crystal Consortium-Materials Innovation Platform (2DCC-MIP) under NSF grant [DMR-1539916]
- Program Management Unit for Human Resources Institutional Development, Research and Innovation [B05F630108]
- ETH postdoctoral fellowship
- National Research Foundation of Korea [2019R1A5A1027055, 2018R1A2A3075438] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
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Advances in quantum computing hardware technologies over the past two decades have been aimed at solving problems that classical computers cannot handle. Key materials challenges have been identified as limiting progress in quantum computing hardware platforms, requiring interdisciplinary collaboration beyond current boundaries.
Quantum computing hardware technologies have advanced during the past two decades, with the goal of building systems that can solve problems that are intractable on classical computers. The ability to realize large-scale systems depends on major advances in materials science, materials engineering, and new fabrication techniques. We identify key materials challenges that currently limit progress in five quantum computing hardware platforms, propose how to tackle these problems, and discuss some new areas for exploration. Addressing these materials challenges will require scientists and engineers to work together to create new, interdisciplinary approaches beyond the current boundaries of the quantum computing field.
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