Magnetic diagnostics using the third-harmonic magnetic response for a molecule-based magnet networked by a single chiral ligand

Journal of Applied Physics Volume 111 Issue 10 Page 103914- published_at 2012
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Title ( eng )
Magnetic diagnostics using the third-harmonic magnetic response for a molecule-based magnet networked by a single chiral ligand
Creator
Mito Masaki
Iriguchi K.
Deguchi Hiroyuki
Kishine Jun-Ichiro
Yoshida Yusuke
Source Title
Journal of Applied Physics
Volume 111
Issue 10
Start Page 103914
Abstract
We investigated complex magnetic domain formation on a chiral molecule-based magnet, [Cr(CN)6][Mn(R)-pnH(H2O)](H2O) (termed as R-GN), whose two-dimensional molecular network was constructed with the help of a single-handed chiral ligand ((R)-pn). There, the first- and third-harmonic magnetic responses (M1ω and M3ω) against the ac magnetic field were observed, and magnetic hysteresis in ac field of a few Oe was discussed in terms of Rayleigh loop. The diagnostics of this magnetic hysteresis clarified the complex process of magnetic domain formation against a change in temperature. For R-GN, it was reported that a giant M3ω (termed #4 in this paper) appeared just above the so-called “magnetic ordering temperature (TC)." In the present study, three M3ω responses (#1-3) were newly observed on the lower-temperature side of #4, and the ac field dependencies for all of #1-#4 were investigated. #1 also accompanied the giant M3ω, which suggests that a significant degree of magnetic fluctuation surviving below TC. This glassy behavior below TC is an attractive new phenomenon in molecule-based magnets with a single-handed chiral ligand. #2 and #3 exhibited magnetic ordering and the formation of a small magnetic domain, respectively. The M3ω responses of #1-3 were suppressed with increasing the amplitude of ac field, and the corresponding magnetic hysteresis was a normal Rayleigh loop accompanying the out-of-phase of the M1ω response. The M3ω response of #4 without the out-of-phase of M1ω was, however, enhanced with increasing the amplitude of ac field, and #4 represented a large magnetic hysteresis in the paramagnetic region, intrinsically different from those of #1-#3.
NDC
Chemistry [ 430 ]
Language
eng
Resource Type journal article
Publisher
American Institute of Physics
Date of Issued 2012
Rights
(c) 2012 American Institute of Physics
Publish Type Version of Record
Access Rights open access
Source Identifier
[ISSN] 0021-8979
[DOI] 10.1063/1.4721806
[NCID] AA00693547
[DOI] http://dx.doi.org/10.1063/1.4721806