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
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Creator |
Mito Masaki
Iriguchi K.
Deguchi Hiroyuki
Kishine Jun-Ichiro
Yoshida Yusuke
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Source Title |
Journal of Applied Physics
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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.
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NDC |
Chemistry [ 430 ]
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Language |
eng
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Resource Type | journal article |
Publisher |
American Institute of Physics
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Date of Issued | 2012 |
Rights |
(c) 2012 American Institute of Physics
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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
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