Incommensurate charge and spin density wave order in electron doped SrMn1-xWxO3 (x= 0.08 to 0.1875)
@article{Yadav2019IncommensurateCA,
title={Incommensurate charge and spin density wave order in electron doped SrMn1-xWxO3 (x= 0.08 to 0.1875)},
author={Poonam Yadav and Shivani Sharma and Aga Shahee and Iv{\'a}n da Silva and V{\'a}clav Petř{\'i}{\vc}ek and Niranjan Prasad Lalla},
journal={arXiv: Materials Science},
year={2019}
}Incommensurate (IC) charge-order (CO) and spin density wave (SDW) order in electron doped SrMn1-xWxO3-{\delta} (x= 0.08 to 0.1875) have been studied using neutron diffraction.The study highlights the drastic effect of electron doping on the emergence of magnetic ground states which were not revealed in manganites before. With increasing (x) the crystal structure changes from simple tetragonal (P4/mmm) to an IC-CO modulated structure with super space-group P2/m({\alpha}\b{eta}0)00 having ab…
References
SHOWING 1-7 OF 7 REFERENCES
μSR and neutron diffraction studies on the tuning of spin-glass phases in the partially ordered double perovskites SrMn1−xWxO3
- Materials SciencePhysical Review B
- 2019
Tunability of the partially ordered double perovskite (PODP) and coexisting spin-glass phase in SrMn1-xWxO3 (x=0.20 to 0.40) have been studied using neutron powder diffraction (NPD), muon spin…
Charge‐Density‐Wave Conductors
- Physics
- 1996
When metals are cooled, they often undergo a phase transition to a state exhibiting a new type of order. Metals such as iron and nickel become ferromagnetic below temperatures of several hundred…
Magnetism in Condensed Matter
- Physics
- 2001
1. Introduction 2. Isolated magnetic moments 3. Environments 4. Interactions 5. Order and magnetic structures 6. Order and broken symmetry 7. Magnetism in metals 8. Competing interactions and low…
Phys
- Rev. B, 71,
Phys
- Rev. B, 59 (22),
Phys
- Rev. B, 59(22),
Crystal structure and phase-transition studies of few perovskite based manganites and chromates using powder x-ray diffraction and transmission electron microscopy
- Ph.D. Thesis,
- 2015