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The maximum T<sub>c</sub> of conventional superconductors at ambient pressure. [PDF]
Nat CommunGao K +8 more
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Superconducting Quantum Metamaterials from Convergence of Soft and Hard Condensed Matter Science
Advanced Materials, 2021AbstractSuperconducting quantum metamaterials are expected to exhibit a variety of novel properties, but have been a major challenge to prepare as a result of the lack of appropriate synthetic routes to high‐quality materials. Here, the discovery of synthesis routes to block copolymer (BCP) self‐assembly‐directed niobium nitrides and carbonitrides is ...
Peter A. Beaucage +4 more
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Condensed matter physic: Superconductivity debate gets ugly
Physics World, 1998Developing a theory of high-temperature superconductivity (HTS) is one of the outstanding problems in physics. It is a challenge that has defeated theoretical physicists for more than ten years, ever since researchers discovered that certain materials containing copper-oxide layers remain superconducting at temperatures up to 125 K. Indeed, it is often
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AIP Conference Proceedings, 2015
We address the issue of qualifications of the niobium materials to be used for superconducting radio frequency (SCRF) cavity fabrications, from the point of view of a condensed matter physicist/materials scientist. We focus on the particular materials properties of niobium required for the functioning a SCRF cavity, and how to optimize the same ...
S. B. Roy, G. R. Myneni
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We address the issue of qualifications of the niobium materials to be used for superconducting radio frequency (SCRF) cavity fabrications, from the point of view of a condensed matter physicist/materials scientist. We focus on the particular materials properties of niobium required for the functioning a SCRF cavity, and how to optimize the same ...
S. B. Roy, G. R. Myneni
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AIP Conference Proceedings, 2009
Low-temperature physics and astronomy have traditionally focused on developing exquisitely sensitive single‐pixel detectors. While this has yielded considerable results, these technologies almost uniformly suffer from an inability to scale to large array sizes. In order to circumvent this barrier, frequency-multiplexing techniques have recently emerged
L. J. Swenson +20 more
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Low-temperature physics and astronomy have traditionally focused on developing exquisitely sensitive single‐pixel detectors. While this has yielded considerable results, these technologies almost uniformly suffer from an inability to scale to large array sizes. In order to circumvent this barrier, frequency-multiplexing techniques have recently emerged
L. J. Swenson +20 more
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Berichte der Bunsengesellschaft für physikalische Chemie, 1991
AbstractThe fermionic second order reduced density matrix with complex dilation and thermalization describes generally quantum correlation effects in condensed matter. Connection with recent experiments on high‐Tc copper‐oxide superconductors is made.
E. J. Brändas +1 more
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AbstractThe fermionic second order reduced density matrix with complex dilation and thermalization describes generally quantum correlation effects in condensed matter. Connection with recent experiments on high‐Tc copper‐oxide superconductors is made.
E. J. Brändas +1 more
openaire +1 more source
Weyl, Dirac and high-fold chiral fermions in topological quantum matter
Nature Reviews Materials, 2021M Zahid Hasan +2 more
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Coupled ferroelectricity and superconductivity in bilayer Td-MoTe2
Nature, 2023Amartyajyoti Saha +2 more
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