Experimental demonstration of 14.6 dB squeezing amplification in a weak Kerr nonlinear superconducting cavity using Trotterized displacements for Fock states up to N=6.
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Theoretical modeling finds that dilute impurities in the loop-current phase of kagome metals generate switchable chiral QPI signals whose chirality tracks the Z3 nematicity set by loop-current order relative to the star-of-David CDW.
A two-step optical protocol using charge state dynamics boosts NV center spin contrast by 17% and reduces initialization error by over 50%.
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Quantum squeezing amplification with a weak Kerr nonlinear oscillator
Experimental demonstration of 14.6 dB squeezing amplification in a weak Kerr nonlinear superconducting cavity using Trotterized displacements for Fock states up to N=6.
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Origin of switchable quasiparticle-interference chirality in loop-current phase of kagome metals measured by scanning-tunneling-microscopy
Theoretical modeling finds that dilute impurities in the loop-current phase of kagome metals generate switchable chiral QPI signals whose chirality tracks the Z3 nematicity set by loop-current order relative to the star-of-David CDW.
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Exploiting ionization dynamics in the nitrogen vacancy center for rapid, high-contrast spin and charge state initialization
A two-step optical protocol using charge state dynamics boosts NV center spin contrast by 17% and reduces initialization error by over 50%.