J. Colina
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View article: Computational Power of Random Quantum Circuits in Arbitrary Geometries
Computational Power of Random Quantum Circuits in Arbitrary Geometries Open
Empirical evidence for a gap between the computational powers of classical and quantum computers has been provided by experiments that sample the output distributions of two-dimensional quantum circuits. Many attempts to close this gap hav…
View article: The computational power of random quantum circuits in arbitrary geometries
The computational power of random quantum circuits in arbitrary geometries Open
Empirical evidence for a gap between the computational powers of classical and quantum computers has been provided by experiments that sample the output distributions of two-dimensional quantum circuits. Many attempts to close this gap hav…
View article: A Race-Track Trapped-Ion Quantum Processor
A Race-Track Trapped-Ion Quantum Processor Open
We describe and benchmark a new quantum charge-coupled device (QCCD) trapped-ion quantum computer based on a linear trap with periodic boundary conditions, which resembles a race track. The new system successfully incorporates several tech…
View article: A Race Track Trapped-Ion Quantum Processor
A Race Track Trapped-Ion Quantum Processor Open
We describe and benchmark a new quantum charge-coupled device (QCCD) trapped-ion quantum computer based on a linear trap with periodic boundary conditions, which resembles a race track. The new system successfully incorporates several tech…