quantum computer

A reprogrammable light-based computer processor
The team’s reprogrammable light-based processor. Credit: Will Wright, RMIT University A reprogrammable light-based computer processor
A team led by quantum expert Mikhail Lukin (right) has achieved a breakthrough in quantum computing. Dolev Bluvstein, a Ph.D. student in Lukin’s lab, was first author on the paper. Jon Chase/Harvard Staff Photographer
A key step toward reliable, game-changing quantum computing
A team led by quantum expert Mikhail Lukin (right) has achieved a breakthrough in quantum
Photo of the Silicon Quantum Technology team of Simon Fraser University.
An important milestone that unlocks immediate opportunities to construct massively scalable quantum computers and the quantum internet
Photo of the Silicon Quantum Technology team of Simon Fraser University. An important milestone that
Cuprous oxide – the mined crystal from Namibia used for making Rydberg polaritons
Could a special form of light made using an ancient Namibian gemstone be the key to new light-based quantum computers?
Cuprous oxide – the mined crystal from Namibia used for making Rydberg polaritons Could a
A big deal: Constructing a cheap quantum computer atom by atom on silicon
via University of Melbourne A big deal: Constructing a cheap quantum computer atom by atom
Removed: A key obstacle on the road to the supercomputer of the future
The illustration shows the size difference between spin qubits and superconducting qubits. Removed: A key
A new way of making quantum computers trustworthy by letting quantum computers check each other
Multiple quantum computers of different technology platforms are verified against each other by performing random-looking
Removed: A major obstacle that has stood in the way of quantum computers becoming a reality
via UNSW Sydney Removed: A major obstacle that has stood in the way of quantum
On the path to reliable quantum machine learning
Building on concepts such as quantum entanglement, quantum computers promise a wealth of machine learning
A major breakthrough in Quantum Dot Technology
A research team led by Prof. Sean Chen of the Department of Materials Science and
The way to pack a million qubits into a quantum computer rather than just a few thousand
NIST physicists measured and controlled a superconducting quantum bit (qubit) using light-conducting fiber (indicated by
The worldwide first prototype of a distributed quantum computer
This picture shows the two qubit modules (red atom between two blue mirrors) that have
Quantum computer creation milestone
(a) Scanning electron image of one of the Foundry-fabricated quantum dot devices. Four quantum dots
Quantum progress: Bringing practical hybrid quantum-classical computing one step closer
Layout of qubits in Google’s Sycamore architecture. Quantum progress: Bringing practical hybrid quantum-classical computing one
Overcoming a major problem which plagues today’s quantum computers
New algorithm could unleash the power of quantum computers Overcoming a major problem which plagues