Simulations of quantum many-body systems are an important goal for nuclear and high-energy physics. Many-body problems ...
AA-LNB.py -r 3 -d 1 -x 20 -y 20 -z 20 -u POPC -sol TIP3:100 -sol N2:0.06 -sold 0.27 -salt 0.15 -a 1.2 -gas N2 -o N2-LNB.gro -gden 250 -excl 0.5 AA-LNB.py -r 3 -d 1 -x 20 -y 20 -z 20 -u POPC -sol ...
A novel framework was created by nuclear physicists at the University of Washington to examine the interactions between ...
In recent years, physicists have been trying to better understand the behavior of individual quantum particles as they move ...
Quantum annealing processors outperform classical supercomputers in solving real-world scientific simulations of quantum spin dynamics, researchers ...
BTQ Technologies Corp. (the "Company") (CBOE CA: BTQ) (FSE: NG3) (OTCQX: BTQQF), a global quantum technology company focused ...
The simulation studies mentioned above model glycerol with classical force fields with ... One standard approach to improve computational efficiency is the use of united-atom coarse-grained (CG) ...
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 ...
Working at nanoscale dimensions, a team of scientists led by the Department of Energy's Oak Ridge National Laboratory ...
In a recent QSA study using neutral atom technology, QSA researchers employed specialized simulation methods to investigate ...
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 ...