Phase transitions and magnetism in layer-structured (C18H37NH3)2MnCl4

Kyu Won Lee; Chang Hoon Lee; Cheol Eui Lee

Phase transitions and magnetism in layer-structured (C₁₈H₃₇NH₃)₂MnCl₄

Kyu Won Lee, Chang Hoon Lee, Cheol Eui Lee

Department of Physics

Research output: Contribution to journal › Article

4 Citations (Scopus)

Abstract

We have studied lattice dynamics and magnetism in the perovskite-type layered structure compound (C₁₈H₃₇NH₃)₂MnCl₄ by means of nuclear magnetic resonance, electron paramagnetic resonance, and superconducting quantum interference device measurements. As a result, three structural phase transitions attributed to the hydrocarbon chains and the magnetic inorganic planes, as well as the spin relaxation behaviors, were identified and characterized.

Original language	English
Article number	134424
Pages (from-to)	1344241-1344245
Number of pages	5
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	67
Issue number	13
Publication status	Published - 2003 Apr

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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Lee, K. W., Lee, C. H., & Lee, C. E. (2003). Phase transitions and magnetism in layer-structured (C₁₈H₃₇NH₃)₂MnCl₄. Physical Review B - Condensed Matter and Materials Physics, 67(13), 1344241-1344245. [134424].

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abstract = "We have studied lattice dynamics and magnetism in the perovskite-type layered structure compound (C18H37NH3)2MnCl4 by means of nuclear magnetic resonance, electron paramagnetic resonance, and superconducting quantum interference device measurements. As a result, three structural phase transitions attributed to the hydrocarbon chains and the magnetic inorganic planes, as well as the spin relaxation behaviors, were identified and characterized.",

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N2 - We have studied lattice dynamics and magnetism in the perovskite-type layered structure compound (C18H37NH3)2MnCl4 by means of nuclear magnetic resonance, electron paramagnetic resonance, and superconducting quantum interference device measurements. As a result, three structural phase transitions attributed to the hydrocarbon chains and the magnetic inorganic planes, as well as the spin relaxation behaviors, were identified and characterized.

AB - We have studied lattice dynamics and magnetism in the perovskite-type layered structure compound (C18H37NH3)2MnCl4 by means of nuclear magnetic resonance, electron paramagnetic resonance, and superconducting quantum interference device measurements. As a result, three structural phase transitions attributed to the hydrocarbon chains and the magnetic inorganic planes, as well as the spin relaxation behaviors, were identified and characterized.

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