Publications by authors named "Alex Opremcak"
Off-resonant interaction of fluctuating photons in a resonator with a qubit increases the qubit dephasing rate. We use this effect to measure a small average number of intracavity photons that are coherently or thermally driven. For spectral resolution, we do this by subjecting the qubit to a Carr-Purcell-Meiboom-Gill sequence and record the qubit dephasing rate for various periods between qubit π pulses.
View Article and Find Full Text PDFMeasurement is an essential component of quantum algorithms, and for superconducting qubits it is often the most error prone. Here, we demonstrate model-based readout optimization achieving low measurement errors while avoiding detrimental side effects. For simultaneous and midcircuit measurements across 17 qubits, we observe 1.
View Article and Find Full Text PDFQuantum many-body systems display rich phase structure in their low-temperature equilibrium states. However, much of nature is not in thermal equilibrium. Remarkably, it was recently predicted that out-of-equilibrium systems can exhibit novel dynamical phases that may otherwise be forbidden by equilibrium thermodynamics, a paradigmatic example being the discrete time crystal (DTC).
View Article and Find Full Text PDFArticle Synopsis
- Quantum scrambling spreads localized quantum information throughout a system, raising important questions in physics.
- The study uses a 53-qubit quantum processor to explore how operator spreading and operator entanglement behave during scrambling.
- Findings indicate that while operator spreading can be efficiently modeled classically, operator entanglement demands exponentially more resources to simulate, paving the way for future studies with quantum processors.