Multiple endeavors have been launched to put wooden satellites in space. But what are the potential advantages of wooden satellites?
How Small Can We Make Quantum Computers?
By Robert Lea
How Can Graphene be Used to Build Settlements in Space?
By Cvetelin Vasilev
A Deep-Dive on Quantum Resilient Cyber Security
The Feasibility of Parallel Realities According to Physics
By Harvey Musgrave
The Physics of Disordered Materials and Random Processes
Has Physics Solved the Three-Body Problem Yet?
Exploring Exotic Interactions Using a Spin-Based Amplifier
Researchers Propose Optimized Detection Method for High-Dimensional Entanglement
New Technique Developed to Control Bonding Configuration of Heteroatoms in Graphene Quantum Dots
Superconductivity Coupled with Spintronics to Enhance Quantum Computing
Scientists Use a Quantum Processor to Simulate Exotic States of Matter
Harvard-Led Physicists Experimentally Document the Existence of Quantum Spin Liquid State
Dr. Stefano Bagnulo
AZoQuantum talks to Dr. Stefano Bagnulo about his research relating to the magnetism of white dwarfs.
Dr. Melvin Vopson
AZoQuantum talks to Dr. Melvin Vopson about his research around the quantification of Information within the known universe.
AZoQuantum speaks with Professor Elisabetta Barberio from the School of Physics at The University of Melbourne. Professor Barberio is also the director of the Australian Research Council’s Center of Excellence for Dark Matter Particle Physics.
Zurich Instrument’s new SHFQC is the first qubit controller with the capabilities to utilize up to 6 qubits simultaneously. The SHFQC is capable of seamlessly integrating into any pre-existing Zurich Instruments quantum computing products and allows for scaling of up to 100 qubits and more.
The ORCA-Quest qCMOS camera provides high-quality and low-noise imaging for a variety of needs and uses. This makes it the perfect choice for imaging needs in the wider quantum industry.