In contrast to the previous high- radio frequency (rf) superconducting quantum interference device (SQUID) magnetometer, in which the rf SQUID is placed face to face with the substrate resonator, a simple integrated washer-type rf SQUID magnetometer based on a single bicrystal substrate resonator is designed and fabricated in this work. The magnetometer combines the rf SQUID, flux focusing, and resonator into a single chip. This integrated washer-type rf SQUID magnetometer offers a superior advantage in integrating the device to a scanning SQUID detection system in which the distance between the sample and SQUID can be minimized.
REFERENCES
1.
Y.
Zhang
, N.
Wolters
, J.
Schubert
, D.
Lomparski
, M.
Banzet
, G.
Panaitov
, H.-J.
Krause
, M.
Mück
, and A. I.
Braginski
, IEEE Trans. Appl. Supercond.
13
, 389
(2003
).2.
H. C.
Yang
, S. Y.
Wang
, J. T.
Jeng
, J. H.
Chen
, and H. E.
Horng
, IEEE Trans. Appl. Supercond.
13
, 360
(2003
).3.
D. F.
He
, M.
Daibo
, and M.
Yoshizawa
, IEEE Trans. Appl. Supercond.
13
, 200
(2003
).4.
J. T.
Jeng
, H. E.
Horng
, and H. C.
Yang
, Supercond. Sci. Technol.
15
, 416
(2003
).5.
Y.
Zhang
, N.
Wolters
, D.
Lomparski
, W.
Zander
, M.
Banzet
, J.
Schubert
, H.-J.
Krause
, and P.
van Leeuwen
, IEEE Trans. Appl. Supercond.
15
, 631
(2005
).6.
7.
Y.
Zhang
, H.-M.
Mück
, M.
Bode
, K.
Herrmann
, J.
Schubert
, W.
Zander
, A. I.
Braginski
, and C.
Heiden
, Appl. Phys. Lett.
60
, 2303
(1992
).8.
J.
Krukijärvi
, J. Appl. Phys.
44
, 3729
(1973
).9.
Y.
Zhang
, N.
Wolters
, X. H.
Zeng
, J.
Schubert
, W.
Zander
, H.
Soltner
, H. R.
Yi
, M.
Banzet
, F.
Rüders
, and A. I.
Braginski
, Appl. Supercond.
6
, 385
(1998
).10.
V. K.
Kornev
, K. K.
Likharev
, O. V.
Snigirev
, E. S.
Soldatov
, and V. V.
Khanin
, Radio Eng. Electron. Phys.
25
, 2647
(1980
).11.
Y.
Zhang
, J.
Schubert
, N.
Wolters
, M.
Banzet
, W.
Zander
, and H.-J.
Krause
, Physica C
372
, 282
(2002
).12.
Y.
Zhang
, N.
Wolters
, J.
Schubert
, D.
Lomparski
, M.
Banzet
, G.
Panaitov
, H.-J.
Krause
, M.
Mück
, and A. I.
Braginski
, IEEE Trans. Appl. Supercond.
13
, 389
(2003
).13.
X. H.
Zeng
, H.
Soltner
, D.
Selbig
, M.
Bode
, M.
Bick
, F.
Rüderst
, J.
Schubert
, W.
Zander
, M.
Banzet
, Y.
Zhang
, H.
Bousack
, and A. I.
Braginski
, Meas. Sci. Technol.
9
, 1600
(1998
).14.
K.
Chang
, RF and Microwave Wireless Systems
(Wiley
, New York
, 2000
), p. 121
.15.
P. K.
Hansma
, J. Appl. Phys.
44
, 4191
(1973
).16.
B.
Chesca
, J. Low Temp. Phys.
110
, 963
(1998
).17.
M.
Schmidt
, H.-J.
Krause
, M.
Banzet
, D.
Lomparksi
, J.
Schubert
, W.
Zander
, Y.
Zhang
, R.
Akram
, and M.
Fardmanesh
, Supercond. Sci. Technol.
19
, S261
(2006
).18.
M. B.
Ketchen
, W. J.
Gallagher
, A. W.
Kleinsasser
, S.
Murphy
, and J. R.
Clem
, in SQUID’85 Superconducting Quantum Interference Devices and their Applications
, edited by H. D.
Hahlbohm
and H.
Lübbig
(de Gruyter
, Berlin
, 1985
), p. 865
.19.
J. C.
Chen
, C. H.
Wu
, K. L.
Chen
, J. T.
Jeng
, H. E.
Horng
, and H. C.
Yang
, J. Korean Phys. Soc.
48
, 1100
(2006
).20.
Y.
Zhang
, H.
Soltner
, N.
Wolters
, W.
Zander
, J.
Schubert
, M.
Banzet
, and A. I.
Braginski
, IEEE Trans. Appl. Supercond.
7
, 2870
(1997
).21.
K. L.
Chen
, H. C.
Yang
, and J. H.
Chen
, Physica C
372-376
, 1078
(2002
).22.
H. R.
Yi
, Y.
Zhang
, J.
Schubert
, W.
Zander
, X. H.
Zeng
, and N.
Klein
, J. Appl. Phys.
88
, 5966
(2000
).23.
C. H.
Wu
, U. C.
Sou
, J. C.
Chen
, K. L.
Chen
, H. C.
Yang
, M. H.
Hsu
, T. S.
Lai
, J. T.
Jeng
, Y. S.
Tsai
, and H. E.
Horng
, Appl. Phys. Lett.
88
, 102504
(2006
).© 2007 American Institute of Physics.
2007
American Institute of Physics
You do not currently have access to this content.
