Free energy and phase diagram of chromium alloys

R. S. Fishman, S. H. Liu

Research output: Contribution to journalArticlepeer-review

31 Scopus citations

Abstract

The phase diagram of chromium alloys is remarkably rich. At the Néel temperature of 310 K, pure chromium undergoes a weakly first-order phase transition into an incommensurate spin-density wave (SDW) state. When doped with more than 0.2% manganese, this transition becomes second order and the SDW becomes commensurate. Over 25 years ago, Koehler et al. and Komura, Hamaguchi, and Kunitomi observed a first-order commensurate-to-incommensurate (CI) transition in CrMn alloys. The temperature of this CI transition decreased to zero as the manganese concentration increases from about 0.2% to about 1.5%. Using mean-field theory, we have constructed the free energy and phase diagram of chromium alloys in the presence of electron scattering. In the absence of scattering, the phase diagram allows a first-order phase transition from the incommensurate to the commensurate states with decreasing temperature. But if the damping is sufficiently large, the phase-separation curve flips from the right side of the tricritical point to the left. So within a small window of manganese concentrations, the commensurate state undergoes a first-order transition into the incommensurate state with decreasing temperature, in agreement with the experiments of Koehler et al. At zero temperature, we find a first-order phase transition from the incommensurate to the commensurate state with manganese doping, in agreement with the work of Komura, Hamaguchi, and Kunitomi. In the absence of damping, the zero-temperature energy gap (0) in the commensurate regime is independent of manganese concentration. But in the presence of damping (0) becomes an increasing function of the manganese concentration.

Original languageEnglish
Pages (from-to)3820-3829
Number of pages10
JournalPhysical Review B
Volume48
Issue number6
DOIs
StatePublished - 1993
Externally publishedYes

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