Dynamical freezing of a driven modulator qubit controls the detuning between two target qubits, switching their native exchange interaction between resonant (iSWAP) and off-resonant (suppressed) regimes via drive frequency alone.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Decoherence leaves complementary quantum (cat-like state with Wigner negativity) and classical (Darwinian which-path) records in the bath, demonstrated via tensor-network simulations of a spin-boson model.
citing papers explorer
-
Drive-Only Interaction Engineering via Dynamical Freezing
Dynamical freezing of a driven modulator qubit controls the detuning between two target qubits, switching their native exchange interaction between resonant (iSWAP) and off-resonant (suppressed) regimes via drive frequency alone.
-
Complementary quantum and classical records of qubit decoherence
Decoherence leaves complementary quantum (cat-like state with Wigner negativity) and classical (Darwinian which-path) records in the bath, demonstrated via tensor-network simulations of a spin-boson model.