TITLE

Linear magnetoresistive change at zero field in Cu/Co/Cu/NiFe multilayers

AUTHOR(S)
Miyauchi, D.; Araki, S.
PUB. DATE
September 1993
SOURCE
Applied Physics Letters;9/20/1993, Vol. 63 Issue 12, p1702
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
Investigates the magnetoresistive (MR) properties of copper/cobalt/copper/nickel-iron multilayers with direct current (dc) and active current magnetic fields. Measurement of magnetization curves with a vibrating sample magnetometer; Use of dc four-terminal method in measuring MR properties; Evaluation of hysteresis of MR profile.
ACCESSION #
4227552

 

Related Articles

  • Magnetoresistance in Fe80-xNixCr20 (21≤x≤30) alloys. Nath, T. K.; Majumdar, A. K. // Journal of Applied Physics;11/15/1991, Vol. 70 Issue 10, p5828 

    Presents a study which measured the longitudinal and transverse magnetoresistances (MR) and direct current magnetization in Fe[sub80-x]Ni[subx]Cr[sub20] alloys where the magnetic phase diagram was already established. Aim of the study; Details on the MR measurements; Experimental details and...

  • A high-sensitivity torsional magnetometer for two-dimensional electron systems. Templeton, I. M. // Journal of Applied Physics;10/1/1988, Vol. 64 Issue 7, p3570 

    Deals with a study which described a direct current torsional magnetometer for use in high magnetic fields. Advantages of the device; Area in which the resolution of the device was adequate; Motive for mounting a semicircular rotor electrode in the device.

  • Effect of thermal agitation on the switching field distributions of CoPtCr–SiO2 perpendicular recording media. Shimatsu, T.; Kondo, T.; Mitsuzuka, K.; Watanabe, S.; Aoi, H.; Muraoka, H.; Nakamura, Y. // Journal of Applied Physics;4/15/2006, Vol. 99 Issue 8, p08F905 

    The effect of thermal agitations on the switching field distribution (SFD) of CoPtCr–SiO2 perpendicular media was investigated. Dc demagnetizing (DCD) magnetization curves and minor dc demagnetizing (M-DCD) magnetization curves were measured at applied field sweep rates of ∼10 and...

  • A d.c. magnetic metamaterial. Magnus, F.; Wood, B.; Moore, J.; Morrison, K.; Perkins, G.; Fyson, J.; Wiltshire, M. C. K.; Caplin, D.; Cohen, L. F.; Pendry, J. B. // Nature Materials;Apr2008, Vol. 7 Issue 4, p295 

    Electromagnetic metamaterials are a class of materials that have been artificially structured on a subwavelength scale. They are currently the focus of a great deal of interest because they allow access to previously unrealizable properties such as a negative refractive index. Most metamaterial...

  • Amplification of direct current magnetic responses of magnetic nanobeads due to induced self-assembly of magnetic microbeads. Morimoto, Y.; Takamura, T.; Ishikawa, R.; Ko, P. J.; Sandhu, A. // Journal of Applied Physics;Apr2011, Vol. 109 Issue 7, p07E516 

    Detection of small concentrations of sub-200-nm-sized SPBs (superparamagnetic beads with sizes similar to target molecules) used as 'magnetic labels' is critical for the development of rapid, highly sensitive, and portable point of care treatment (POCT) systems. Currently, magnetoresistive (MR)...

  • Direct-current control of radiation-induced differential magnetoresistance oscillations in two-dimensional electron systems. Lei, X. L. // Applied Physics Letters;9/10/2007, Vol. 91 Issue 11, p112104 

    Magnetoresistance oscillations in two-dimensional electron systems driven simultaneously by a strong direct current and a microwave irradiation are analyzed within a unified microscopic scheme treating both excitations on an equal footing. The microwave-induced resistance oscillations are...

  • Rectification magnetoresistance device: Experimental realization and theoretical simulation. Kun Zhang; Qikun Huang; Yi Yan; Xiaolin Wang; Jing Wang; Shishou Kang; Yufeng Tian // Applied Physics Letters;11/21/2016, Vol. 109 Issue 21, p1 

    A unique technique has been proposed to realize rectification magnetoresistance (RMR) by combining a commercial diode and a magnetoresistance component in parallel. The observed RMR could be greatly tuned in a wide range by applying direct current and alternating current simultaneously to the...

  • A high-sensitivity magnetoresistive magnetometer. Smith, Neil; Jeffers, Fred; Freeman, Jay // Journal of Applied Physics;4/15/1991, Vol. 69 Issue 8, p5082 

    Presents a study that focused on the design of a high-sensitivity, small-size, low-power consumption, broad-bandwidth magnetometer, in which a magnetoresistive element is located. Function of concentrators located in the magnetometer; Factor that made it possible for achieving detection of...

  • Key elements for a sensitive 77 K direct current superconducting quantum interference device.... Lee, L.P.; Teepe, M. // Applied Physics Letters;5/29/1995, Vol. 66 Issue 22, p3058 

    Demonstrates the operation of direct current superconducting quantum interference device (SQUID) magnetometers. Advantages of single layer devices; Acceptance of high-temperature semiconductor thin-film technology; Discussion of the key elements of achieving good performance of SQUID.

  • Fast sweep-rate plastic Faraday force magnetometer with simultaneous sample temperature measurement. Slobinsky, D.; Borzi, R. A.; Mackenzie, A. P.; Grigera, S. A. // Review of Scientific Instruments;Dec2012, Vol. 83 Issue 12, p125104 

    We present a design for a magnetometer capable of operating at temperatures down to 50 mK and magnetic fields up to 15 T with integrated sample temperature measurement. Our design is based on the concept of a Faraday force magnetometer with a load-sensing variable capacitor. A plastic body...

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics