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Paper detail

Nanoelectronic thermometers optimised for sub-10 millikelvin operation

We report the cooling of electrons in nanoelectronic Coulomb blockade thermometers below 4 mK. Above 7 mK the devices are in good thermal contact with the environment, well isolated from electrical noise, and not susceptible to self-heating. This is attributed to an optimised design that incorporates cooling fins with a high electron-phonon coupling and on-chip electronic filters, combined with a low-noise electronic measurement setup. Below 7 mK the electron temperature is seen to diverge from the ambient temperature. By immersing a Coulomb Blockade Thermometer in the 3He/4He refrigerant of a dilution refrigerator, we measure a lowest electron temperature of 3.7 mK.

preprint2015arXivOpen access
J. R. PranceD. I. BradleyR. E. GeorgeR. P. HaleyYu. A. PashkinM. SarsbyJ. PenttiläL. RoschierD. GunnarssonH. HeikkinenM. Prunnila
cond-mat.mes-hall
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J. R. PranceD. I. BradleyR. E. GeorgeR. P. HaleyYu. A. PashkinM. SarsbyJ. PenttiläL. RoschierD. GunnarssonH. HeikkinenM. Prunnila

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