ATOMIC-FORCE MICROSCOPE AND SCANNING TUNNELING MICROSCOPE STUDIES OF SUPERLATTICES AND DENSITY WAVES IN FE DOPED NBSE2, TASE2, TAS2 AND IN NBSE3 DOPED WITH FE, CO, CR, AND V

Authors
COLEMAN RV DAI Z GONG CG XUE Q
Citation
Rv. Coleman et al., ATOMIC-FORCE MICROSCOPE AND SCANNING TUNNELING MICROSCOPE STUDIES OF SUPERLATTICES AND DENSITY WAVES IN FE DOPED NBSE2, TASE2, TAS2 AND IN NBSE3 DOPED WITH FE, CO, CR, AND V, Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomena, 12(3), 1994, pp. 1801-1804
Citations number
15
Categorie Soggetti
Physics, Applied
Journal title
Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomenaACNP
ISSN journal
10711023
Volume
12
Issue
3
Year of publication
1994
Pages
1801 - 1804
Database
ISI
SICI code
1071-1023(1994)12:3<1801:AMASTM>2.0.ZU;2-N
Abstract
Results of atomic force microscope (AFM) and scanning tunneling micros cope (STM) studies of superlattices and long-range modulations induced by impurities in transition metal chalcogenides are presented. Superl attices formed by Fe intercalation into the van der Waals gaps of 2H-N bSe2, 2H-TaSe2 and 2H-TaS2 show ordered occupation of the octahedral h oles and STM spectroscopy shows density-wave energy gaps existing in t he antiferromagnetic phases. In NbSe3, interstitial impurities such as Fe, Co, Cr, and V induce long-range modulated structures that can be detected at room temperature with AFM scans. These modulations modify the charge-density wave structure forming at low temperature and STM s pectroscopy has been used to measure these changes.