SVIBOR - Papers quoted in CC - project code: 1-03-172

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Papers quoted in Current Contents on project 1-03-172

Quoted papers: 10
Other papers: 4
Total: 14

Title: Hall effect in the organic conductor (TMTSF)2NO3

Authors:: Basletić, Mario (197593); Korin-Hamzić, Bojana (61314); Hamzić, Amir (15234); Tomić, Silvia (65594); Fabre, J.M

Journal: Solid State Communications
Number: 0
ISSN: 0038-1098
Volume: 96
Year: 1995
Pages: from 732 to 736
Number of references: 29
Language: engleski
Summary: Hall effect measurements at low temperatures (1.8 K <= T <= 7 K) and high magnetic fields (H <= 8.5 T) of the organic conductor (TMTSF)2NO3 are reported. The large Hall coefficient RH indicates the semimetallic nature of the spin density wave (SDW) ground state, whereas its positive sign the dominance of the hole carriers. Both RH and resistivity increase with decreasing temperature, which suggests the possibility that the carrier concentration is reduced as the temperature is lowered. The field variation of Hall resistance Rxy deviates from the linear dependence for T < 4 K and H > 3 T. This could be interpreted not only by the temperature induced change in the number of carriers or anisotropy of their mobilities, but also by the possibility that the SDW state might change with the applied magnetic field.
Keywords: organic crystals, electronic transport, galvanomagnetic effects

Title: Magnetic field influence on the spin-density wave of the organic conductor (TMTSF)2NO3

Authors:: Tomić, Silvia (65594); Biškup, Neven (179286); Korin-Hamzić, Bojana (61314); Basletić, Mario (197593); Hamzić, Amir (15234); Maki, Kazumi; Fabre, J.M; Bechgaard, Klaus

Journal: Journal of Magnetism and Magnetic Materials
Number: nal
ISSN: 2-86883-197-4
Volume: Jour
Year: 1993
Pages: from 293 to 298
Number of references: 102
Language: engleski
Summary: We present the influence of a transverse magnetic field on the spin-density wave (SDW) ground state of the organic conductor (TMTSF)2NO3. Magnetic field increases the single-particle activation energy. A finite magnetic field (Hc) induces dicontinuities in the magnetoresistance behaviour and its value is temperature dependent. The threshold electric field (ET) for the SDW sliding increases in a magnetic field. All observed effects are strongly angle-dependent indicating that they are determined by the magnetic field component along the least-conduction (c*) direction. We discuss these results in the framework of a theoretical model for the SDW with large imperfect nesting.
Keywords: organic conductors, spin density waves, threshold electrical field

Title: Magnetotransport effects in spin-density wave state of the organic conductor (TMTSF)2NO3

Authors:: Basletić, Mario (197593); Hamzić, Amir (15234); Biškup, Neven (179286); Tomić, Silvia (65594); Korin-Hamzić, Bojana (61314); Maki, Kazumi; Fabre, J.M; Bechgaard, Klaus

Journal: Journal of Magnetism and Magnetic Materials
Number: nal
ISSN: 2-86883-197-4
Volume: Jour
Year: 1993
Pages: from 315 to 318
Number of references: 102
Language: engleski
Summary: We report a study of the transverse magnetoresistance properties in the spin-density wave (SDW) phase of the organic conductor (TMTSF)2NO3 at temperature down to 1.8K and in magnetic field up to 6 tesla. The transverse magnetoresistance shows large effect and is highly anisotropic. We analize our data in the framework of recent theoretical calculations by K.Maki.We suggest that the SDW with large imperfect nesting together with a periodic anion potential might be responsible for the magnetic field effects.
Keywords: organic conductors, spin density waves, anisotropy, magnetoresistivity,


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