Spin Reorientation in Antiferromagnetic MnPd5Se with an Anti-CeCoIn5Structure Type

Ranuri S. Dissanayaka Mudiyanselage; Qiang Zhang; Madalynn Marshall; Mark Croft; Zhixue Shu; Tai Kong; Weiwei Xie

doi:10.1021/acs.inorgchem.1c03637

Spin Reorientation in Antiferromagnetic MnPd₅Se with an Anti-CeCoIn₅Structure Type

Ranuri S. Dissanayaka Mudiyanselage, Qiang Zhang, Madalynn Marshall, Mark Croft, Zhixue Shu, Tai Kong, Weiwei Xie

Powder Diffraction

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Abstract

MnPd₅Se, a derivative of the anti-CeCoIn₅-type phase, was synthesized from a high-temperature solid-state reaction, structurally determined by X-ray diffraction, and magnetically characterized with a combined magnetic measurement and neutron powder diffraction (NPD). According to the X-ray diffraction results, MnPd₅Se crystallizes in a layered tetragonal structure with the same space group as CeCoIn₅, P4/mmm (No. 123). MnPd₅Se shows antiferromagnetic ordering around 80 K on the basis of the magnetic property measurements. An A-type antiferromagnetic structure was revealed from the analysis of neutron powder diffraction results at 300, 50, and 6 K. Moreover, a spin orientation rotation was observed as the temperature decreased. Pd L₃X-ray absorption near edge spectroscopy results for MnPd₅Se semiqualitatively correlate with the calculated density of states supporting a nominal 0.2 electron transfer into the Pd d orbital from either Se or Mn in the compound. The discovery of MnPd₅Se, along with our previously reported MnT₅Pn (T = Pd or Pt; Pn = P or As), provides a tunable system for studying the magnetic ordering from ferromagnetism to antiferromagnetism with the strong spin-orbit coupling effect.

Original language	English
Pages (from-to)	3981-3988
Number of pages	8
Journal	Inorganic Chemistry
Volume	61
Issue number	9
DOIs	https://doi.org/10.1021/acs.inorgchem.1c03637
State	Published - Mar 7 2022

Funding

The work at Rutgers is supported by National Science Foundation Grant DMR-2053287. Neutron diffraction measurements used resources at the Spallation Neutron Source, a U.S. Department of Energy Office of Science User Facility operated by the Oak Ridge National Laboratory. XANES was performed by Conan Weiland (NIST) on NSLS-II beamline 7-ID-2 SST-2 and supported in part under DOE-BES (DE-SC0012704).

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title = "Spin Reorientation in Antiferromagnetic MnPd5Se with an Anti-CeCoIn5Structure Type",

abstract = "MnPd5Se, a derivative of the anti-CeCoIn5-type phase, was synthesized from a high-temperature solid-state reaction, structurally determined by X-ray diffraction, and magnetically characterized with a combined magnetic measurement and neutron powder diffraction (NPD). According to the X-ray diffraction results, MnPd5Se crystallizes in a layered tetragonal structure with the same space group as CeCoIn5, P4/mmm (No. 123). MnPd5Se shows antiferromagnetic ordering around 80 K on the basis of the magnetic property measurements. An A-type antiferromagnetic structure was revealed from the analysis of neutron powder diffraction results at 300, 50, and 6 K. Moreover, a spin orientation rotation was observed as the temperature decreased. Pd L3X-ray absorption near edge spectroscopy results for MnPd5Se semiqualitatively correlate with the calculated density of states supporting a nominal 0.2 electron transfer into the Pd d orbital from either Se or Mn in the compound. The discovery of MnPd5Se, along with our previously reported MnT5Pn (T = Pd or Pt; Pn = P or As), provides a tunable system for studying the magnetic ordering from ferromagnetism to antiferromagnetism with the strong spin-orbit coupling effect.",

author = "{Dissanayaka Mudiyanselage}, {Ranuri S.} and Qiang Zhang and Madalynn Marshall and Mark Croft and Zhixue Shu and Tai Kong and Weiwei Xie",

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T1 - Spin Reorientation in Antiferromagnetic MnPd5Se with an Anti-CeCoIn5Structure Type

AU - Dissanayaka Mudiyanselage, Ranuri S.

AU - Zhang, Qiang

AU - Marshall, Madalynn

AU - Croft, Mark

AU - Shu, Zhixue

AU - Kong, Tai

AU - Xie, Weiwei

PY - 2022/3/7

Y1 - 2022/3/7

N2 - MnPd5Se, a derivative of the anti-CeCoIn5-type phase, was synthesized from a high-temperature solid-state reaction, structurally determined by X-ray diffraction, and magnetically characterized with a combined magnetic measurement and neutron powder diffraction (NPD). According to the X-ray diffraction results, MnPd5Se crystallizes in a layered tetragonal structure with the same space group as CeCoIn5, P4/mmm (No. 123). MnPd5Se shows antiferromagnetic ordering around 80 K on the basis of the magnetic property measurements. An A-type antiferromagnetic structure was revealed from the analysis of neutron powder diffraction results at 300, 50, and 6 K. Moreover, a spin orientation rotation was observed as the temperature decreased. Pd L3X-ray absorption near edge spectroscopy results for MnPd5Se semiqualitatively correlate with the calculated density of states supporting a nominal 0.2 electron transfer into the Pd d orbital from either Se or Mn in the compound. The discovery of MnPd5Se, along with our previously reported MnT5Pn (T = Pd or Pt; Pn = P or As), provides a tunable system for studying the magnetic ordering from ferromagnetism to antiferromagnetism with the strong spin-orbit coupling effect.

AB - MnPd5Se, a derivative of the anti-CeCoIn5-type phase, was synthesized from a high-temperature solid-state reaction, structurally determined by X-ray diffraction, and magnetically characterized with a combined magnetic measurement and neutron powder diffraction (NPD). According to the X-ray diffraction results, MnPd5Se crystallizes in a layered tetragonal structure with the same space group as CeCoIn5, P4/mmm (No. 123). MnPd5Se shows antiferromagnetic ordering around 80 K on the basis of the magnetic property measurements. An A-type antiferromagnetic structure was revealed from the analysis of neutron powder diffraction results at 300, 50, and 6 K. Moreover, a spin orientation rotation was observed as the temperature decreased. Pd L3X-ray absorption near edge spectroscopy results for MnPd5Se semiqualitatively correlate with the calculated density of states supporting a nominal 0.2 electron transfer into the Pd d orbital from either Se or Mn in the compound. The discovery of MnPd5Se, along with our previously reported MnT5Pn (T = Pd or Pt; Pn = P or As), provides a tunable system for studying the magnetic ordering from ferromagnetism to antiferromagnetism with the strong spin-orbit coupling effect.

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Spin Reorientation in Antiferromagnetic MnPd₅Se with an Anti-CeCoIn₅Structure Type

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