Simulations of quantum many-body systems are an important goal for nuclear and high-energy physics. Many-body problems ...

The word atom comes from Latin for indivisible. But don't let the name fool you. A simulation by US theoretical physicists ...

The company also demonstrated the first end-to-end chemistry simulation that combines reliable logical quantum computation ...

Scientists at Google have revealed a new method of "quantum simulation" that uses computing power to mimic the behavior of a powerful quantum system. This approach, they argue, could lead to ...

A quantum annealer is slow and not very useful for computing, Vodeb says, but its thousands of qubits are ideal for such a simulation because they’re very controllable, allowing bubble formation ...

Quantum annealing processors outperform classical supercomputers in solving real-world scientific simulations of quantum spin dynamics, researchers ...

The force acting on each atom is calculated based on the potential energy derived ... Observables and Properties: Throughout the simulation, various physical properties such as temperature, pressure, ...

Achieving thermal observables on a programmable quantum computer is essential for quantum simulation of many-body physics. The authors provide an approach to obtain thermal observables and ...

While we still focus on atom-based systems, my main research foci are ... show the optimized Wigner functions that can be obtained in an experimental system [note the data is simulation only, we are ...