Highlights
![Left: Superconducting tripole striplines on a substrate inside a high-purity aluminum cylinder. Right: Cross-section showing strip arrangement and electric field behavior in different modes. Each mode is sensitive to different types of energy loss.](/-/media/QIS/images/highlights/2024/Shoelkopf.jpg?h=188&w=549&la=en&hash=63E95BC97F47DC321B644F402272D516FFF3E12E95C3B5B66D3F71699A181504)
Advancing Quantum Technology: Tantalum's Impact on Next Generation Qubits
Enhancing quantum coherence through innovative materials design in superconducting circuits
![Representation of the magnitude of the elastic πΣ hadron scattering amplitude showing the double-pole structure that suggests the hadron has a pair of resonances at 1380 megaelectronvolts (MeV) and 1405 MeV, not just one at 1405 MeV.](/-/media/np/images/highlights/2024/MIT-Lattice-QCD.jpg?h=593&w=592&la=en&hash=3401B9BBA984F765A64B9D4BAB2861F83E75EBB470AD42C3F3425D653026424F)
To Understand a Special Hadron, Researchers Turn to Supercomputers and Quantum Chromodynamics
Scientists Gain new insights into the nature of the puzzling lambda 1405 hyperon resonance and its controversial partner.
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