A propagating front in a high-kinetic-inductance superconducting line induces a tunable Doppler shift that converts microwave wave-packet frequencies by up to 3.7 percent without distorting their temporal envelope.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2026 2representative citing papers
A single shared Π-filter integrated in the feedline uses engineered microwave interference to suppress environmental admittance and deliver Purcell-limited qubit relaxation times above 1 ms across roughly 1.5 GHz while preserving readout and reset modes.
citing papers explorer
-
Doppler-induced tunable and shape-preserving frequency conversion of microwave wave packets
A propagating front in a high-kinetic-inductance superconducting line induces a tunable Doppler shift that converts microwave wave-packet frequencies by up to 3.7 percent without distorting their temporal envelope.
-
Engineered broadband Purcell protection using a shared $\Pi$-filter for multiplexed superconducting qubits
A single shared Π-filter integrated in the feedline uses engineered microwave interference to suppress environmental admittance and deliver Purcell-limited qubit relaxation times above 1 ms across roughly 1.5 GHz while preserving readout and reset modes.