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Bolometric technique for high-resolution broadband microwave spectroscopy of ultra-low-loss samples

A novel low temperature bolometric method has been devised and implemented for high-precision measurements of the microwave surface resistance of small single-crystal platelet samples having very low absorption, as a continuous function of frequency. The key to the success of this non-resonant method is the in-situ use of a normal metal reference sample that calibrates the absolute rf field strength. The sample temperature can be controlled independently of the 1.2 K liquid helium bath, allowing for measurements of the temperature evolution of the absorption. However, the instrument's sensitivity decreases at higher temperatures, placing a limit on the useful temperature range. Using this method, the minimum detectable power at 1.3 K is 1.5 pW, corresponding to a surface resistance sensitivity of $\approx$1 $μΩ$ for a typical 1 mm$\times$1 mm platelet sample.

preprint2003arXivOpen access
P. J. TurnerD. M. BrounSaeid KamalM. E. HaydenJ. S. BobowskiR. HarrisD. C. MorganJ. S. PrestonD. A. BonnW. N. Hardy
cond-mat.supr-con
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Open access10 authors1 topic
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P. J. TurnerD. M. BrounSaeid KamalM. E. HaydenJ. S. BobowskiR. HarrisD. C. MorganJ. S. PrestonD. A. BonnW. N. Hardy

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