We have measured the effective resistance of a Josephson junction and of an rf SQUID cooled at a temperature between 18 mK and 35 mK. From a fit of the data with a simplified solution of the master equation describing the system dynamics we found for both devices an effective resistance R/spl ap/4-5 M/spl Omega/. This value, in the same system cooled at 5 mK, would lead to a decoherence time of approximately 1.1 /spl mu/s allowing one to perform measurements of the Rabi oscillations having a tunneling frequency of the order of few MHz. This value is very promising also for the realization of qu-bits realized by means of Josephson devices.
Measurements of the decoherence time from energy level quantization in Josephson junctions and rf SQUIDs
Fabio Chiarello;Maria Gabriella Castellano;Guido Torrioli
1999
Abstract
We have measured the effective resistance of a Josephson junction and of an rf SQUID cooled at a temperature between 18 mK and 35 mK. From a fit of the data with a simplified solution of the master equation describing the system dynamics we found for both devices an effective resistance R/spl ap/4-5 M/spl Omega/. This value, in the same system cooled at 5 mK, would lead to a decoherence time of approximately 1.1 /spl mu/s allowing one to perform measurements of the Rabi oscillations having a tunneling frequency of the order of few MHz. This value is very promising also for the realization of qu-bits realized by means of Josephson devices.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
