1. Multiple spectra of electron spin resonance in chiral molecule-based magnets networked by a single chiral ligand.
- Author
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Mito, M., Nagano, T., Tsuruta, K., Deguchi, H., Takagi, S., Kishine, J., Yoshida, Y., and Inoue, K.
- Subjects
MAGNETS ,ELECTRON paramagnetic resonance ,LIGANDS (Chemistry) ,SPECTRUM analysis ,FOURIER transforms ,MAGNETIC structure - Abstract
A molecule-based magnet [Cr(CN)6][Mn(R/S)-pnH(H2O)](H2O) (termed R/S-GN) is a chiral crystal without an inversion center and mirror reflection, and its structural network is constructed using a chiral ligand diaminopropane (R/S)-pn. In S-GN, multiple spectra of ESR were observed below the magnetic ordering temperature by Morgunov et al. [Phys. Rev. B 77, 184419 (2008)]. They concluded that the phenomenon at the high field side occurred because the incommensurate magnetic structure resulted in a length-controllable superlattice of domain walls (the so-called chiral soliton lattice, CSL) under a dc magnetic field H applied perpendicular to the magnetic chiral axis. However, there multiple spectra were observed even for H nearly parallel to the chiral axis, a-axis, and their interpretation is unreasonable. Thus, we conducted an X-band electron spin resonance (ESR) measurement of R-GN under conditions similar to those of their experiment and performed Fourier spectrum analyses for the data of R-GN as an approach of physical characterization. By using two Lorentz spectra, the main ESR spectra for H // a were reproduced, and furthermore two prominent periodic modes were found by spectrum analyses based on Fourier transform. Two characteristic periods, p1 and p2 (
- Published
- 2013
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