Journal
APPLIED PHYSICS LETTERS
Volume 115, Issue 21, Pages -Publisher
AMER INST PHYSICS
DOI: 10.1063/1.5116109
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Funding
- Canada First Research Excellence Fund (CFREF)
- NSERC of Canada
- Canadian Foundation for Innovation
- Ontario Ministry of Research, Innovation and Science
- Industry Canada
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In superconducting qubit measurements, stray infrared photons lead to damping processes that degrade quantum coherence. In this Letter, we show that a thermal blocking filter made of multiwalled carbon nanotubes diluted in stainless steel powder can significantly improve the energy relaxation time, T-1, and the pure dephasing time, T-phi, of a qubit. By using two independent measurement lines, with and without the filter, and switching between them in situ, we observe that with the filter there is an increase of more than 61% in T-1 and 291% in T-phi. We characterize the filter, demonstrating that the scattering parameters remain stable down to 8 mK over a wide range of frequencies, spanning from 10 MHz to 50 GHz. We also show that the cutoff frequency of the filter is easily controlled by selecting the concentration of nanotubes. Published under license by AIP Publishing.
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