A framework maps any analytic function P(x,y) to a harmonic potential whose radio-frequency null lines exactly follow P=0, enabling cusp, contact, and lattice trap networks.
and Perry, Abigail R
2 Pith papers cite this work. Polarity classification is still indexing.
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A new compiler for surface codes on QCCD trapped-ion hardware shows that 2-ion traps outperform larger traps in logical clock speed and hardware efficiency, beating prior compilers by 3.8X on average.
citing papers explorer
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Field configurations for field-free RF trap networks
A framework maps any analytic function P(x,y) to a harmonic potential whose radio-frequency null lines exactly follow P=0, enabling cusp, contact, and lattice trap networks.
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Architecting Scalable Trapped Ion Quantum Computers using Surface Codes
A new compiler for surface codes on QCCD trapped-ion hardware shows that 2-ion traps outperform larger traps in logical clock speed and hardware efficiency, beating prior compilers by 3.8X on average.