Authors
CM Quintana, Yu Chen, Daniel Sank, AG Petukhov, TC White, Dvir Kafri, Ben Chiaro, Anthony Megrant, Rami Barends, Brooks Campbell, Zijun Chen, Andrew Dunsworth, Austin G Fowler, Rob Graff, Evan Jeffrey, Julian Kelly, Erik Lucero, JY Mutus, Matthew Neeley, Charles Neill, PJJ O’Malley, Pedram Roushan, Alireza Shabani, VN Smelyanskiy, Amit Vainsencher, James Wenner, Hartmut Neven, John M Martinis
Publication date
2017/1/31
Journal
Physical review letters
Volume
118
Issue
5
Pages
057702
Publisher
American Physical Society
Description
By analyzing the dissipative dynamics of a tunable gap flux qubit, we extract both sides of its two-sided environmental flux noise spectral density over a range of frequencies around 2 k B T/h≈ 1 GHz, allowing for the observation of a classical-quantum crossover. Below the crossover point, the symmetric noise component follows a 1/f power law that matches the magnitude of the 1/f noise near 1 Hz. The antisymmetric component displays a 1/T dependence below 100 mK, providing dynamical evidence for a paramagnetic environment. Extrapolating the two-sided spectrum predicts the linewidth and reorganization energy of incoherent resonant tunneling between flux qubit wells.
Scholar articles
CM Quintana, Y Chen, D Sank, AG Petukhov, TC White… - Physical review letters, 2017
