Rotating-frame Relaxation As a Noise Spectrum Analyser of a Superconducting Qubit Undergoing Driven Evolution

Overview

Journal Nat Commun

Specialty Biology

Date 2013 Aug 16

PMID 23945930

Citations 14

Authors

Fei Yan

Simon Gustavsson

Jonas Bylander

Xiaoyue Jin

Fumiki Yoshihara

David G Cory

Yasunobu Nakamura

Terry P Orlando

William D Oliver

Affiliations

Soon will be listed here.

Abstract

Gate operations in a quantum information processor are generally realized by tailoring specific periods of free and driven evolution of a quantum system. Unwanted environmental noise, which may in principle be distinct during these two periods, acts to decohere the system and increase the gate error rate. Although there has been significant progress characterizing noise processes during free evolution, the corresponding driven-evolution case is more challenging as the noise being probed is also extant during the characterization protocol. Here we demonstrate the noise spectroscopy (0.1-200 MHz) of a superconducting flux qubit during driven evolution by using a robust spin-locking pulse sequence to measure relaxation (T(1ρ)) in the rotating frame. In the case of flux noise, we resolve spectral features due to coherent fluctuators, and further identify a signature of the 1 MHz defect in a time-domain spin-echo experiment. The driven-evolution noise spectroscopy complements free-evolution methods, enabling the means to characterize and distinguish various noise processes relevant for universal quantum control.

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