We report on a density functional theory study demonstrating the coexistence of weak ferromagnetism and antiferroelectricity in boron-deficient MgB6. A boron vacancy produces an almost one dimensional extended molecular orbital, which is responsible for the magnetic moment formation. Then, long-range magnetic order can emerge from the overlap of such orbitals above percolation threshold. Although there is a finite density of states at the Fermi level, the localized nature of the charge density causes an inefficient electron screening. We find that the Mg2+ ions can displace from the center of their cubic cage, thus generating electrical dipoles. In the ground state these order in an antiferroelectric configuration. If proved experimentally, this will be the first material without d or f electrons displaying the coexistence of magnetic and electric order.
Source:
Physical Review Letters, 2012, 108, 10
Publisher:
Amer Physical Soc, College Pk
Funding / projects:
Science Foundation of Ireland (SFI) under the CSETScience Foundation Ireland
TY - JOUR
AU - Popov, Igor
AU - Baadji, Nadjib
AU - Sanvito, Stefano
PY - 2012
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/565
AB - We report on a density functional theory study demonstrating the coexistence of weak ferromagnetism and antiferroelectricity in boron-deficient MgB6. A boron vacancy produces an almost one dimensional extended molecular orbital, which is responsible for the magnetic moment formation. Then, long-range magnetic order can emerge from the overlap of such orbitals above percolation threshold. Although there is a finite density of states at the Fermi level, the localized nature of the charge density causes an inefficient electron screening. We find that the Mg2+ ions can displace from the center of their cubic cage, thus generating electrical dipoles. In the ground state these order in an antiferroelectric configuration. If proved experimentally, this will be the first material without d or f electrons displaying the coexistence of magnetic and electric order.
PB - Amer Physical Soc, College Pk
T2 - Physical Review Letters
T1 - Magnetism and Antiferroelectricity in MgB6
IS - 10
VL - 108
DO - 10.1103/PhysRevLett.108.107205
ER -
@article{
author = "Popov, Igor and Baadji, Nadjib and Sanvito, Stefano",
year = "2012",
abstract = "We report on a density functional theory study demonstrating the coexistence of weak ferromagnetism and antiferroelectricity in boron-deficient MgB6. A boron vacancy produces an almost one dimensional extended molecular orbital, which is responsible for the magnetic moment formation. Then, long-range magnetic order can emerge from the overlap of such orbitals above percolation threshold. Although there is a finite density of states at the Fermi level, the localized nature of the charge density causes an inefficient electron screening. We find that the Mg2+ ions can displace from the center of their cubic cage, thus generating electrical dipoles. In the ground state these order in an antiferroelectric configuration. If proved experimentally, this will be the first material without d or f electrons displaying the coexistence of magnetic and electric order.",
publisher = "Amer Physical Soc, College Pk",
journal = "Physical Review Letters",
title = "Magnetism and Antiferroelectricity in MgB6",
number = "10",
volume = "108",
doi = "10.1103/PhysRevLett.108.107205"
}
Popov, I., Baadji, N.,& Sanvito, S.. (2012). Magnetism and Antiferroelectricity in MgB6. in Physical Review Letters
Amer Physical Soc, College Pk., 108(10).
https://doi.org/10.1103/PhysRevLett.108.107205
Popov I, Baadji N, Sanvito S. Magnetism and Antiferroelectricity in MgB6. in Physical Review Letters. 2012;108(10).
doi:10.1103/PhysRevLett.108.107205 .
Popov, Igor, Baadji, Nadjib, Sanvito, Stefano, "Magnetism and Antiferroelectricity in MgB6" in Physical Review Letters, 108, no. 10 (2012),
https://doi.org/10.1103/PhysRevLett.108.107205 . .
