Characterization of a low frequency magnetic noise from a two stage pulse tube cryocooler
ESHRAGHI Mohamad Javad, 笹田 一郎 (九大); KIM Jin Mok, LEE Yong-Ho (KRISS)
javad4*asem.kyushu-u.ac.jp
Abstract:Magnetic noise of a two stage pulse tube cryocooler(PT) has been measured by a fundamental mode orthogonal fluxgate magnetometer and by a LTS SQUID gradiometer. The magnetometer was installed in a dewar made of aluminum at 12 cm apart from a section containing magnetic regenerative materials of the PT. The magnetic noise shows a clear peak at 1.8 Hz which is the fundamental frequency of the He gas pumping rate. The profile of the 1.8 Hz magnetic noise took a peak at 3.5 nT, during the cooling process, when the cold stage temperature was at (or close to) 12 K, which resembles the variation of the temperature of the second cold stage of 1.8 Hz. Hence we attributed the main source of this magnetic noise to the temperature dependency of magnetic susceptibility of magnetic regenerative materials such as Er3Ni and HoCu2 used at the second stage. We pointed out that the superconducting magnetic shield by lead sheets reduced the ! interfering magnetic noise generated from this part. With this scheme, the magnetic noise amplitude measured with the first order gradiometer DROS, mounted in the vicinity of the magnetic regenerator, when the noise amplitude is minimum, which could be found from the fluxgate measurement results, was less than 500 pT peak to peak, Whereas without lead shielding the noise level was higher than the dynamic range of SQUID instrumentations which is around 20nT.