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The pressure-induced Mott Transition in transition-metal iodides

Conference ·
DOI:https://doi.org/10.1063/1.350089· OSTI ID:5750191
 [1];  [2];  [3]
  1. Tel Aviv Univ. (Israel). School of Physics and Astronomy
  2. Los Alamos National Lab., NM (USA)
  3. California Univ., Berkeley, CA (USA). Dept. of Geology and Geophysics
+ Show Author Affiliations

Many of the Transition Metal (TM) compounds, because of exchange and correlation interactions within the narrow and poorly overlapping d-bands, become antiferromagnetic insulators, the Mott Insulators (MI). The properties of the MI and their gradual transition into the non-correlated metallic state (the Mott Transition) are of crucial important for the elucidation of HTS materials features in particular and to magnetism in general. The transition of the MI into a metal can be achieved either by doping or by high pressure. To yield the definitive data on the Mott transition high pressure work on well characterized materials should be sought. The present studies provide for the first time extensive information on the Mott-Hubbard gap closure induced by high pressure. High pressure studies using Diamond Anvil Cells were conducted in several (TM)I{sub 2} compounds. They all have layered structures and other antiferromagnetically at ambient pressure. {sup 129}I Moessbauer Spectroscopy (MS) was used to study the properties of the (TM){sup 2+} sublattice magnetization as a function of pressure and temperature, and X-ray diffraction was used to look for possible crystallographic transitions and to obtain the equation of state. Results show that the high pressure transition at P{sub c} from a magnetic to a non-magnetic state is not accompanied by crystallographic changes. Previous studies{sup 1} with NiI{sub 2} have confirmed the presence of a metallic state at P > P{sub c}. Inherent to the pressure behavior of the magnetic state is the gradual increase of T{sub N} in all cases and a slight increase in the TM{sup 2+} moments with pressure increase. The collapse of the magnetic state is abrupt for some cases (NiI{sub 2}) and gradual for others (CoI{sub 2}), indicative of different band-overlap mechanisms. 2 refs., 5 figs.

Research Organization:
Los Alamos National Lab., NM (USA)
Sponsoring Organization:
DOE; USDOE, Washington, DC (USA)
DOE Contract Number:
W-7405-ENG-36
OSTI ID:
5750191
Report Number(s):
LA-UR-91-1538; CONF-910608--4; ON: DE91013671
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360102* -- Metals & Alloys-- Structure & Phase Studies
360104 -- Metals & Alloys-- Physical Properties
ANTIFERROMAGNETISM
BAND THEORY
COBALT COMPOUNDS
COBALT IODIDES
COHERENT SCATTERING
DIFFRACTION
ELECTRICAL EQUIPMENT
ELECTRICAL INSULATORS
ELECTRONIC STRUCTURE
ELEMENTS
EQUATIONS
EQUATIONS OF STATE
EQUIPMENT
HALIDES
HALOGEN COMPOUNDS
IODIDES
IODINE COMPOUNDS
MAGNETIC INSULATION
MAGNETISM
MAGNETIZATION
MEETINGS
METALS
NICKEL COMPOUNDS
NICKEL IODIDES
PRESSURE EFFECTS
SCATTERING
SPECTROSCOPY
TRANSITION ELEMENT COMPOUNDS
TRANSITION ELEMENTS
X-RAY DIFFRACTION