A radical superconducting qubit design promises to extend their runtime by addressing decoherence challenges in quantum computing.
Breakthrough in quantum computing with stable room temperature qubits
Scientists achieve groundbreaking room-temperature quantum coherence for 100 nanoseconds, propelling molecular qubits closer to practical quantum computing.
Three distinct molecular qubits in one supramolecule
A molecular complex was built to contain three distinct qubits, offering an intriguing architecture for future quantum computers.
Stable qubits for more compact quantum computers
A new endeavor explores the idea of topological qubits that are easy to engineer for error-free quantum computing.
Environmental Noise and Coherence Time in Quantum Dot Qubits
Predicting the experimental conditions that enhance coherence times for semiconducting quantum dot hybrid qubits.
A quantum take on oblivious transfer unlocks ultra-secure communication
In addition to ensuring the secure transfer of quantum communications, researchers have come up with a way to safely store and process data.
Revolutionizing quantum technologies with photons made from quantum dots
Harnessing quantum dots to produce low-energy single photons for applications in secure communications and quantum computing.
Machine learning’s quantum leap into superconductors and quantum computers
Machine learning unravels the secrets of the Gaudin model, paving the way for improved quantum technologies and a deeper understanding of quantum behavior.
Simulating a quantum computer with electronic circuits
What if quantum computing could be simulated using hardware that isn’t so finicky?
New superconductor could lead to quantum computing breakthrough
A new type of superconductor may just be what physicists have been searching for over the past 40 years.