Anomalous Magnetoresistance in the Spin Density Wave State of Tetramethyltetraselenafulvalinium Nitrate, (TMTSF) 2 NO 3 : Imperfect-Nesting Effects. Basletić, M., Biškup, N., Korin-Hamzić, B., Tomić, S., Hamzić, A., Bechgaard, K., & Fabre, J. Europhysics Letters (EPL), 22(4):279-285, 1993. ![Anomalous Magnetoresistance in the Spin Density Wave State of Tetramethyltetraselenafulvalinium Nitrate, (TMTSF) 2 NO 3 : Imperfect-Nesting Effects [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website abstract bibtex We report a study of the transverse-magnetoresistance anisotropy in the spin-density wave phase of the organic conductor (TMTSF)2N03 at temperatures down to 1.8 K and in fields up to 6 tesla. The transverse magnetoresistance is highly anisotropic and obeys a temperature- and angular-dependent power law behaviour: Ap/po - H* (K n < 2). The indication of a possible field-induced SDW phase is discussed. We suggest that the SDW with large imperfect nesting together with a periodic anion potential might be responsible for the observed magnetic-field effects. © 1993 IOP Pubilishing Ltd.
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title = {Anomalous Magnetoresistance in the Spin Density Wave State of Tetramethyltetraselenafulvalinium Nitrate, (TMTSF) 2 NO 3 : Imperfect-Nesting Effects},
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abstract = {We report a study of the transverse-magnetoresistance anisotropy in the spin-density wave phase of the organic conductor (TMTSF)2N03 at temperatures down to 1.8 K and in fields up to 6 tesla. The transverse magnetoresistance is highly anisotropic and obeys a temperature- and angular-dependent power law behaviour: Ap/po - H* (K n < 2). The indication of a possible field-induced SDW phase is discussed. We suggest that the SDW with large imperfect nesting together with a periodic anion potential might be responsible for the observed magnetic-field effects. © 1993 IOP Pubilishing Ltd.},
bibtype = {article},
author = {Basletić, Mario and Biškup, Neven and Korin-Hamzić, Bojana and Tomić, S and Hamzić, Amir and Bechgaard, K and Fabre, Jean-Marc},
journal = {Europhysics Letters (EPL)},
number = {4}
}
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