Boosting tin-vacancy qubit signals, exploring light-matter interactions, and talented undergraduates advancing QIS
Advancing quantum systems through Q-NEXT’s Materials and Integration thrust
By linking researchers across the breadth of Q-NEXT research, the center's Materials and Integration team, led by Mark Eriksson of the University of Wisconsin–Madison Department of Physics , works on the processing, understanding and integration of qubits and quantum devices. Read more.
Scientists give big boost to signals from tin-based qubits
美国斯坦福大学 collaborators led by Jelena Vuckovic amp up the signal from tin atoms embedded in diamond, opening possibilities for quantum networking. Read more.
Orchestrating the nanoscale: exploring light and matter for quantum science
Randall Goldsmith of the UW-Madison Department of Chemistry studies the interplay of light and matter, harnessing it for quantum information technologies. Read more.
University of Illinois Chicago students write the book on automating diamond membrane creation for quantum devices
The Break Through Tech Chicago initiative enables six students at the University of Illinois Chicago to develop a process that will accelerate the creation of quantum materials at Q-NEXT. Read more.
The Fantastic Four: Open Quantum Initiative undergraduate fellows at Argonne share their research experiences
Four students talk about their work developing quantum technologies and how they’re excited to be part of the quantum revolution. Read more.