A qubit-encoded (1+1)D Schwinger model simulation finds vacuum minima at theta-bar=0 and 2pi and shows relaxation to theta_eff=0 when coupled to a dynamical axion, realizing the Peccei-Quinn mechanism.
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Integrating repetition code QEC with logical GHZ entanglement in CMOS spin qubits reduces effective dephasing and enables up to order-of-magnitude improvements in sensitivity to axion-electron coupling g_ae by restoring entanglement-enhanced sensing.
In a viable f(R) model transitioning from early GR-like to late non-GR behavior, matter power spectra show higher monopole and quadrupole power at small scales with quadrupole elevated at large scales up to k~0.02, while scalaron mass decreases over time to GR limits on galactic scales.
citing papers explorer
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Quantum simulation of strong charge-parity violation and Peccei-Quinn mechanism
A qubit-encoded (1+1)D Schwinger model simulation finds vacuum minima at theta-bar=0 and 2pi and shows relaxation to theta_eff=0 when coupled to a dynamical axion, realizing the Peccei-Quinn mechanism.
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Quantum Error Correction Assisted Axion Search in CMOS Spin Qubit Arrays
Integrating repetition code QEC with logical GHZ entanglement in CMOS spin qubits reduces effective dephasing and enables up to order-of-magnitude improvements in sensitivity to axion-electron coupling g_ae by restoring entanglement-enhanced sensing.
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Cosmological perturbations with $f(R)$ gravity scalarons : Galaxy power spectra and the scalaron mass
In a viable f(R) model transitioning from early GR-like to late non-GR behavior, matter power spectra show higher monopole and quadrupole power at small scales with quadrupole elevated at large scales up to k~0.02, while scalaron mass decreases over time to GR limits on galactic scales.