MAGNETOTRANSPORT AND CHARGE-DENSITY-WAVE INSTABILITIES IN THE QUASI-2-DIMENSIONAL PHOSPHATE TUNGSTEN BRONZES (PO2)4(WO3)2M (M = 4,6,7)

Authors
ROTGER A SCHLENKER C DUMAS J WANG E TEWELDEMEDHIN Z GREENBLATT M
Citation
A. Rotger et al., MAGNETOTRANSPORT AND CHARGE-DENSITY-WAVE INSTABILITIES IN THE QUASI-2-DIMENSIONAL PHOSPHATE TUNGSTEN BRONZES (PO2)4(WO3)2M (M = 4,6,7), Synthetic metals, 56(2-3), 1993, pp. 2670-2675
Citations number
12
Categorie Soggetti
Physics, Condensed Matter","Metallurgy & Mining
Journal title
Synthetic metalsACNP
ISSN journal
03796779
Volume
56
Issue
2-3
Year of publication
1993
Pages
2670 - 2675
Database
ISI
SICI code
0379-6779(1993)56:2-3<2670:MACIIT>2.0.ZU;2-4
Abstract
Electrical resistivity has been measured between 4.2 K and 300 K in fi elds up to 6 Tesla on the monophosphate tungsten bronzes P4W8O32, P4W1 2O44 and P4W14O50. These compounds are anisotropic quasi-two-dimension al metals showing several charge density wave instabilities. For m = 4 and m = 6, a large anisotropic magnetoresistance is found in die lowe st temperature charge density wave state, as expected, with small carr ier pockets left on die Fermi surface by gap openings. For m = 7, seve ral instabilities are found by the transport properties together with a small magnetoresistance. These results are partly consistent with X- ray diffuse scattering studies.