Structural and magnetic phase transitions in Na1-δ FeAs

Shiliang Li; Clarina De La Cruz; Q. Huang; G. F. Chen; T. L. Xia; J. L. Luo; N. L. Wang; Pengcheng Dai

doi:10.1103/PhysRevB.80.020504

Structural and magnetic phase transitions in Na1-δ FeAs

Shiliang Li, Clarina De La Cruz, Q. Huang, G. F. Chen, T. L. Xia, J. L. Luo, N. L. Wang, Pengcheng Dai

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Abstract

We use neutron scattering to study the spin and lattice structures of single crystal and powder samples of Na1-δ FeAs (Tc =23K). Upon cooling from room temperature, the system goes through a series of phase transitions: first changing the crystal symmetry from tetragonal to orthorhombic at 49 K, then ordering antiferromagnetically with a spin structure similar to that of LaFeAsO and a small moment (0.09±0.04 μB), and finally becoming superconducting below about 23 K. These results confirm that antiferromagnetic order is ubiquitous for the parent compounds of the iron arsenide superconductors and suggest that the separated structural and magnetic phase-transition temperatures are due to the reduction in the c -axis exchange coupling of the system.

Original language	English
Article number	020504
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	80
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevB.80.020504
State	Published - Aug 6 2009

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abstract = "We use neutron scattering to study the spin and lattice structures of single crystal and powder samples of Na1-δ FeAs (Tc =23K). Upon cooling from room temperature, the system goes through a series of phase transitions: first changing the crystal symmetry from tetragonal to orthorhombic at 49 K, then ordering antiferromagnetically with a spin structure similar to that of LaFeAsO and a small moment (0.09±0.04 μB), and finally becoming superconducting below about 23 K. These results confirm that antiferromagnetic order is ubiquitous for the parent compounds of the iron arsenide superconductors and suggest that the separated structural and magnetic phase-transition temperatures are due to the reduction in the c -axis exchange coupling of the system.",

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AU - Li, Shiliang

AU - De La Cruz, Clarina

AU - Huang, Q.

AU - Chen, G. F.

AU - Xia, T. L.

AU - Luo, J. L.

AU - Wang, N. L.

AU - Dai, Pengcheng

PY - 2009/8/6

Y1 - 2009/8/6

N2 - We use neutron scattering to study the spin and lattice structures of single crystal and powder samples of Na1-δ FeAs (Tc =23K). Upon cooling from room temperature, the system goes through a series of phase transitions: first changing the crystal symmetry from tetragonal to orthorhombic at 49 K, then ordering antiferromagnetically with a spin structure similar to that of LaFeAsO and a small moment (0.09±0.04 μB), and finally becoming superconducting below about 23 K. These results confirm that antiferromagnetic order is ubiquitous for the parent compounds of the iron arsenide superconductors and suggest that the separated structural and magnetic phase-transition temperatures are due to the reduction in the c -axis exchange coupling of the system.

AB - We use neutron scattering to study the spin and lattice structures of single crystal and powder samples of Na1-δ FeAs (Tc =23K). Upon cooling from room temperature, the system goes through a series of phase transitions: first changing the crystal symmetry from tetragonal to orthorhombic at 49 K, then ordering antiferromagnetically with a spin structure similar to that of LaFeAsO and a small moment (0.09±0.04 μB), and finally becoming superconducting below about 23 K. These results confirm that antiferromagnetic order is ubiquitous for the parent compounds of the iron arsenide superconductors and suggest that the separated structural and magnetic phase-transition temperatures are due to the reduction in the c -axis exchange coupling of the system.

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Structural and magnetic phase transitions in Na1-δ FeAs

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