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Primary thermometry of propagating microwaves in the quantum regime
Physical Review X ( IF 12.577 ) Pub Date : 
Marco Scigliuzzo; Andreas Bengtsson; Jean-Claude Besse; Andreas Wallraff; Per Delsing; Simone Gasparinetti

The ability to control and measure the temperature of propagating microwave modes down to very low temperatures is indispensable for quantum information processing, and may open opportunities for studies of heat transport at the nanoscale, also in the quantum regime. Here we propose and experimentally demonstrate primary thermometry of propagating microwaves using a transmon-type superconducting circuit. Our device operates continuously, with a sensitivity down to 4×104 photons/Hz and a bandwidth of $40~\rm{MHz}$. We measure the thermal occupation of the modes of a highly attenuated coaxial cable in a range of 0.001 to 0.4 thermal photons, corresponding to a temperature range from 35 mK to 210 mK at a frequency around 5 GHz. To increase the radiation temperature in a controlled fashion, we either inject calibrated, wideband digital noise, or heat the device and its environment. This thermometry scheme can find applications in benchmarking and characterization of cryogenic microwave setups, temperature measurements in hybrid quantum systems, and quantum thermodynamics.
更新日期:2020-10-15

 

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