2016
DOI: 10.1103/physrevb.94.094426
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Kinetic-arrest-induced phase coexistence and metastability in(Mn,Fe)2(P,Si)

Abstract: Neutron diffraction, Mössbauer spectroscopy, magnetometry, and in-field x-ray diffraction are employed to investigate the magnetoelastic phase transition in hexagonal (Mn,Fe) 2 (P,Si) compounds. (Mn,Fe) 2 (P,Si) compounds undergo for certain compositions a second-order paramagnetic (PM) to a spin-density-wave (SDW) phase transition before further transforming into a ferromagnetic (FM) phase via a first-order phase transition. The SDW-FM transition can be kinetically arrested, causing the coexistence of FM and … Show more

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Cited by 25 publications
(23 citation statements)
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“…The detected AFM order is consistent with the susceptibility measurements [see the inset of Fig. 2 (a)] and previous neutron diffraction experiments [21]. Intensive temperature-dependent neutron diffraction measurements [21] clearly reveal that some (Mn,Fe) 2 (P,Si) compounds undergo a PM to AFM phase transition before further transforming into a FM phase upon cooling.…”
Section: B Neutron Polarization Analysissupporting
confidence: 90%
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“…The detected AFM order is consistent with the susceptibility measurements [see the inset of Fig. 2 (a)] and previous neutron diffraction experiments [21]. Intensive temperature-dependent neutron diffraction measurements [21] clearly reveal that some (Mn,Fe) 2 (P,Si) compounds undergo a PM to AFM phase transition before further transforming into a FM phase upon cooling.…”
Section: B Neutron Polarization Analysissupporting
confidence: 90%
“…With a further decrease in temperature, the peak intensity significantly increases and the peak position shifts to larger Q values. This reveals the enhancement of AFM order and variations in the propagation vector of the incommensurate AFM structure [21]. The detected AFM order is consistent with the susceptibility measurements [see the inset of Fig.…”
Section: B Neutron Polarization Analysissupporting
confidence: 87%
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“…But many real systems do spontaneously fall out of equilibrium in a window of thermal hysteresis around the abrupt phase transition (APT) [2]. The accompanying nonergodic behaviorarrested kinetics [3, 4], spatial inhomogeneity [5,6] and phase coexistence [7][8][9], and rate dependence [10-12]-is well documented.Within the mean field (MF) picture, this metastable phase is predicted to abruptly terminate at the spinodals, the two values of field or temperature where the barrier against nucleation vanishes [2,7,[13][14][15][16][17][18]. The analogy between the MF spinodals and the critical point in the power law divergence of susceptibility [2,13,[18][19][20] and their being fixed points under renormalization group transformation [17,21] has long been discussed [2,18,22].…”
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confidence: 99%