English

First order transition in trigonal structure ${\textbf{Ca}}{\textbf{Mn}}_{2}{\textbf{P}}_{2}$

Materials Science 2021-01-08 v1

Abstract

We report structural and physical properties of the single crystalline CaMn2P2{\mathrm{Ca}}{\mathrm{Mn}}_{2}{\mathrm{P}}_{2}. The X-ray diffraction(XRD) results show that CaMn2P2{\mathrm{Ca}}{\mathrm{Mn}}_{2}{\mathrm{P}}_{2} adopts the trigonal CaAl2Si2{\mathrm{Ca}}{\mathrm{Al}}_{2}{\mathrm{Si}}_{2}-type structure. Temperature dependent electrical resistivity ρ(T)\rho(T) measurements indicate an insulating ground state for CaMn2P2{\mathrm{Ca}}{\mathrm{Mn}}_{2}{\mathrm{P}}_{2} with activation energies of 40 meV and 0.64 meV for two distinct regions, respectively. Magnetization measurements show no apparent magnetic phase transition under 400 K. Different from other AMn2Pn2{\mathrm{A}}{\mathrm{Mn}}_{2}{\mathrm{Pn}}_{2} (A = Ca, Sr, and Ba, and Pn = P, As, and Sb) compounds with the same structure, heat capacity Cp(T)C_{\mathrm{p}}(T) and ρ(T)\rho(T) reveal that CaMn2P2{\mathrm{Ca}}{\mathrm{Mn}}_{2}{\mathrm{P}}_{2} has a first-order transition at TT = 69.5 K and the transition temperature shifts to high temperature upon increasing pressure. The emergence of plenty of new Raman modes below the transition, clearly suggests a change in symmetry accompanying the transition. The combination of the structural, transport, thermal and magnetic measurements, points to an unusual origin of the transition.

Keywords

Cite

@article{arxiv.2012.01863,
  title  = {First order transition in trigonal structure ${\textbf{Ca}}{\textbf{Mn}}_{2}{\textbf{P}}_{2}$},
  author = {Y. J. Li and F. Jin and Z. Y. Mi and J. Guo and W. Wu and D. S. Wu and S. H. Na and C. Mu and X. B. Zhou and Z. Li and K. Liu and L. L. Sun and Q. M. Zhang and T. Xiang and G. Li and J. L. Luo},
  journal= {arXiv preprint arXiv:2012.01863},
  year   = {2021}
}

Comments

6 pages, 6 figures. Accepted by Europhysics Letters

R2 v1 2026-06-23T20:42:06.546Z