ࡱ> $&#`4 bjbjss .C2222 > VVVVVVVV$yh (!VVVVV(VVIVLVVVVJ > E2_0   VVVVVVV(( VVVVVVV Magnetotransport properties of the quasi-1D organic and inorganic conductors: Bechgaard salts and cuprate two-leg ladders I will present our comparative study of the magnetotransport properties of organic conductors (TMTCF)2X (C= Se, S; X=PF6, ReO4, AsF6..). Their phase diagram spanning from more anisotropic C = S to C = Se series shows the increasing interchain coupling that leads to the crossing-over of the dimensionality. Our results of the conductivity anisotropy, Hall effect and magnetoresistance enabled us to gain information about the spin density wave ground state at low temperature, Fermi liquid or Luttinger liquid behavior in the normal phase at high temperatures, possible dimensional crossover and phase transitions. The results are discussed in the framework of the existing theoretical models. I will also present our results of the Hall effect measurements of quasi-one-dimensional cuprates Sr14-xCaxCu24O41 ( 0 d" x d" 11.5) that have been conducted in order to determine the number of carriers participating in dc transport, and its relationship with doping. }~    w * 0 4 hdhnPH*hdhnPH*]hdhnP]hdhnP0J6hnPhnPH* hdhnP hAhnPhnP{|}~2 4 $a$gdnPgdnP4 ,1h. A!"#$% D@D NormalCJ^J_HIaJmHsHtHDA@D Default Paragraph FontRi@R  Table Normal4 l4a (k@(No List,X`, nPEmphasis6C{|}~BE000000}~BEj00x K00 0004 4 4 z AEzAEEEnPAE@BBABBCp@p UnknownGz Times New Roman5Symbol3& z Arial3Latha"&&!r4AA 2qHP)?nP23Magnetotransport properties of the quasi-1D organicBojanaBojanaOh+'0 ,8 X d p|4Magnetotransport properties of the quasi-1D organicBojana Normal.dotBojana1Microsoft Office Word@^в@9C@D՜.+,0 hp|  IFA 4Magnetotransport properties of the quasi-1D organic Title  !"%Root Entry F2H E'1Table WordDocument.SummaryInformation(DocumentSummaryInformation8CompObjq  FMicrosoft Office Word Document MSWordDocWord.Document.89q