Rensselaer Polytechnic Institute researchers have demonstrated how the future of quantum computing may depend on the further development and understanding of semiconductor materials known as transition metal dichalcogenides (TMDCs).
A commonly-studied perovskite can superfluoresce at temperatures practical to achieve and at timescales long enough to make it potentially useful in quantum computing applications.
MIT researchers demonstrate a way to sharply reduce errors in two-qubit gates, a significant advance toward fully realizing quantum computation.
Rice University researchers have found an orthoferrite material showing uniquely tunable interactions that could have a major impact on quantum technology and sensing.
Purdue University engineers are building a probabilistic computer designed to act more like quantum computers rather than traditional computers.
In spite of disruptions caused by the COVID-19 pandemic, the semiconductor history had a strong finish to 2020, almost reaching the sales high achieved in 2018.
SEMI, along with 16 other organizations, are pushing the Biden administration to bolster semiconductor manufacturing and research in the U.S., which accounts for an eighth of global production.
Researchers have fabricated a silicon chip with fully integrated LEDs, bright enough to enable sensor and communication technologies, which could streamline manufacturing and also provide better performance for nanoscale electronics.
A computational approach to accelerate the design of materials exhibiting metal-insulator transitions (MIT) has been developed and it could lead to faster microelectronics and quantum information systems
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