Argonne National Laboratory

Argonne’s Frozen Neon Qubit Discovery Starts a Computing Era

Posted on April 30, 2026 by HemaSumanth 5 min read

Argonne’s frozen neon discovery provides ultra-low noise qubits for scalable, high-performance quantum computers.

Argonne News: Michael Norman Wins 2026 John Bardeen Prize

Posted on March 30, 2026 by HemaSumanth 4 min read

Argonne News: 2026 Bardeen Prize awarded to Argonne physicist Michael Norman for breakthroughs in understanding complex superconductors.

Quantum Computing

Scanning Tunneling Microscopy News In Diamond Qubits

Posted on February 1, 2026 by Agarapu Naveen 4 min read

Scanning Tunneling Microscopy News: Scientists use STM and graphene to image and control diamond NV qubits at the atomic scale

Quantum Computing

Argonne Advanced Photon Source beamlines for future discovery

Posted on January 7, 2026 by HemaSumanth 3 min read

Argonne’s upgraded Advanced Photon Source beamlines deliver highly coherent X-ray beams, enabling scientists to observe atomic-level materials .

Quantum Computing

Argonne and Intel 12 Qubit Processor Milestone at Q-NEXT

Posted on January 7, 2026 by Jettipalli Lavanya 4 min read

Intel and Argonne National Laboratory have successfully implemented an Intel 12 qubit processor based on quantum dots on silicon.

Quantum Computing

Atomic Quantum Emitters discovery using QuEEN-M by Argonne

Posted on December 11, 2025 by HemaSumanth 6 min read

Argonne scientists engineer atomic-scale quantum emitters, enabling precise single-photon control for future quantum computing, communication, and sensing.

Quantum Computing

Spin Qubits open new paths in Quantum Networking and sensing

Posted on November 13, 2025 by Agarapu Naveen 5 min read

The Quantum Foundry at Argonne National Laboratory Creates Optically Active Spin Qubits, Transforming Computing and Sensing Potential

Quantum Computing

The Argonne National Laboratory News For Quantum Material

Posted on August 3, 2025 by HemaSumanth 5 min read

Learn Argonne National Laboratory news for npj computational materials shows a magnesium oxide mineral defect may be quantum building block.