Latest Quantum Computing Post
The week ending November 22, 2025, delivered a powerful surge of advancements in quantum computing demanding your attention—from Hong Kong deploying the city’s first chip-based quantum network to IBM and Cisco unveiling plans for a distributed, fault-tolerant quantum infrastructure. Funding accelerated, hardware reached new milestones, and post-quantum defenses hardened. These developments aren’t hype; they’re the building blocks of the next computing era. Here’s the full summary you can’t afford to miss.
Our Mission
At The Qubit Report, our mission is to promote knowledge and opinion of quantum computing from the casual reader to the scientifically astute. Because Quantum is Coming.
Recent Quantum Computing Posts
Archer Materials Validates & Demonstrates Qubit Coherence at Room Temperature, in Non-Vacuum Environment
For the first time, Archer Materials validated that the qubits’ quantum coherence properties‡ are preserved under an inert atmosphere. Quantum coherence is the fundamental requirement for quantum logic operations that are the basis of any quantum computing qubit processor hardware. For potential integration and use of qubit materials in practical chip devices, it is significant to demonstrate and validate qubit robustness at room temperature and under atmospheric environments other than that of air or vacuum.
Work on Quantum Materials Earns the Max Planck-Humboldt Research Award
Pablo Jarillo-Herrero, the Cecil and Ida Green Professor of Physics at MIT, has received the 2021 Max Planck-Humboldt Research Award from the Max Planck Society and the Alexander von Humboldt Foundation for his work on two-dimensional quantum materials.
The Shorts | 10/13/21 | Technology and Hardware in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of recent articles and reports covering various aspects of quantum computing from the lens of technology and hardware. Mea Cubitt
The Shorts | 10/12/21 | Cybersecurity and Cryptography in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of articles and reports covering various aspects of quantum computing from the lens of cybersecurity and cryptography. Mea Cubitt
Understanding the Critical Functions of a Quantum Internet: Focus of Oak Ridge Scientists
Researchers reach quantum networking milestone in real-world environment The third and final node used in the experiment is located in the Charlie laboratory. Credit: Carlos Jones/ORNL, U.S. Dept. of Energy A team from the U.S. Department of Energy’s Oak Ridge National Laboratory, Stanford University and
IonQ and University of Maryland Researchers Demonstrate Fault-Tolerant Error Correction, Critical for Unlocking the Full Potential of Quantum Computers
Researchers from The University of Maryland and IonQ, Inc. (“IonQ”) (NYSE: IONQ), a leader in trapped-ion quantum computing, on Monday published results in the journal Nature that show a significant breakthrough in error correction technology for quantum computers. In collaboration with scientists from Duke University and the Georgia Institute of Technology, this work demonstrates for the first time how quantum computers can overcome quantum computing errors, a key technical obstacle to large-scale use cases like financial market prediction or drug discovery.
The Shorts | 10/11/21 | Business and Industry in Quantum Computing
The rate at which quantum computing is hitting the media stream is ever-increasing. This piece is a collection of recent articles and reports covering various aspects of quantum computing from the lens of business and industry. Mea Cubitt
When – If Ever – Quantum Computing Arrives, Could it Kill Blockchain?
The introduction piques our interest. Quantum computing may be here in 5 years – or 15 years – and that has been said for a number of years now. The spectre of quantum computing over blockchain may be more myth than reality — at least
Could Superconducting Flakes Outperform Quantum Computer Hardware?
Researchers from the University of Bath have developed a technique for creating single-crystal flake devices so thin and pure that they may be able to outperform existing components for quantum computers.