Effect of thermal stress on non-collinear antiferromagnetic phase transitions in antiperovskite Mn3GaN compounds with Mn3SbN inclusions
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Lunhua He | Jie Chen | S. Deng | Ying Sun | Kewen Shi | Jin Cui | D. Hu | Shihai An | X. Yuan | Huimin Han | Jie Ren | Cong Wang | Zhijie Ma
[1] Y. Okamoto,et al. Giant Magneto-Volume and Magneto-Caloric Effects of Frustrated Antiferromagnet Mn3GaN under Hydrostatic Pressure , 2021 .
[2] D. Ralph,et al. Controlling spin current polarization through non-collinear antiferromagnetism , 2019, Nature Communications.
[3] E. Tsymbal,et al. Anomalous Hall conductivity of noncollinear magnetic antiperovskites , 2019, Physical Review Materials.
[4] F. Hu,et al. Negative Thermal Expansion in the Materials With Giant Magnetocaloric Effect , 2018, Front. Chem..
[5] Wei Wang,et al. Effects of Ni substitution on magnetism and thermal expansion of antiperovskite Mn3Ga1-xNixN (0 ≤ x ≤ 1.0) , 2018, Ceramics International.
[6] Wenjun Zhao,et al. Investigation of the spin-lattice coupling in M n 3 G a 1 -x S n x N antiperovskites , 2018 .
[7] Wenjun Zhao,et al. Tunable negative thermal expansion and structural evolution in antiperovskite Mn3Ga1−xGexN (0 ≤ x ≤ 1.0) , 2017 .
[8] Muhammad Imran Malik,et al. Baromagnetic Effect in Antiperovskite Mn3Ga0.95N0.94 by Neutron Powder Diffraction Analysis , 2016, Advanced materials.
[9] Y. Sun,et al. Magnetically driven negative thermal expansion in antiperovskite Ga1-xMnxN0.8Mn3 (0.1 ≤ x ≤ 0.3) , 2015 .
[10] A. Zaoui,et al. Frustrated Triangular Magnetic Structures of Mn3ZnN: Applications in Thermal Expansion , 2015 .
[11] Lihua Chu,et al. Relationship between spin ordering, entropy, and anomalous lattice variation in Mn3Sn(1-ε)Si(ε)C(1-δ) compounds. , 2014, Inorganic chemistry.
[12] T. Inagaki,et al. Magnetovolume effects in manganese nitrides with antiperovskite structure , 2014, Science and technology of advanced materials.
[13] Y. Matsushita,et al. Unusual magnetic hysteresis and the weakened transition behavior induced by Sn substitution in Mn3SbN , 2014 .
[14] Jun Yu Li,et al. Thermodynamic, Electromagnetic, and Lattice Properties of Antiperovskite Mn3SbN , 2013 .
[15] K. Gschneidner,et al. Barocaloric effect in the magnetocaloric prototype Gd5Si2Ge2 , 2012 .
[16] Lihua Chu,et al. Magnetic transition, lattice variation and electronic transport properties of Ag-doped Mn3Ni1−xAgxN antiperovskite compounds , 2012 .
[17] Lihua Chu,et al. Neutron diffraction study of unusual phase separation in the antiperovskite nitride Mn3ZnN. , 2012, Inorganic chemistry.
[18] Weihua Tang,et al. Tuning the range, magnitude, and sign of the thermal expansion in intermetallic Mn-3(Zn, M)(x) N(M = Ag, Ge) , 2012 .
[19] A. Berenov,et al. A calorimetric method to detect a weak or distributed latent heat contribution at first order magnetic transitions. , 2012, The Review of scientific instruments.
[20] T. Inagaki,et al. Effects of nitrogen deficiency on the magnetostructural properties of antiperovskite manganese nitrides , 2012 .
[21] Tatsuya Shimizu,et al. Giant magnetostriction in tetragonally distorted antiperovskite manganese nitrides , 2012 .
[22] Lihua Chu,et al. Preparation and near zero thermal expansion property of Mn3Cu0.5A0.5N (A = Ni, Sn)/Cu composites , 2011 .
[23] Z. R. Yang,et al. Tunable temperature coefficient of resistivity in C- and Co-doped CuNMn3 , 2011 .
[24] Takashi Nakamura,et al. Magnetic state of Mn3CuN explored by soft x ray magnetic circular dichroism , 2011 .
[25] Z. R. Yang,et al. Metastability across the antiferromagnetic–ferromagnetic intermediate phase transition and enhanced giant magnetoresistance in Zn-doped antiperovskite compounds Ga1−xZnxCMn3 , 2010 .
[26] Fusheng Liu,et al. Negative Thermal Expansion and Correlated Magnetic and Electrical Properties of Si‐Doped Mn3GaN Compounds , 2010 .
[27] H. Takagi,et al. Conversion of magnetic structure by slight dopants in geometrically frustrated antiperovskite Mn3GaN , 2009 .
[28] R. Sabirianov,et al. Theory of the Piezomagnetic Effect in Mn-Based Antiperovskites , 2008 .
[29] B. Song,et al. Observation of spin-glass behavior in antiperovskite Mn3GaN , 2008 .
[30] K. Koyama,et al. Magnetostriction in Mn3CuN , 2008 .
[31] H. Takagi,et al. Giant negative thermal expansion in Ge-doped anti-perovskite manganese nitrides , 2005 .
[32] H. Nakagawa,et al. Giant magnetoresistance in the intermetallic compound Mn 3 GaC , 2000 .
[33] D. Fruchart,et al. Magnetic Studies of the Metallic Perovskite-Type Compounds of Manganese , 1978 .
[34] Koshi Takenaka,et al. Giant barocaloric effect enhanced by the frustration of the antiferromagnetic phase in Mn3GaN. , 2015, Nature materials.
[35] D. Fruchart,et al. Specific heat of the cubic metallic perovskites Mn3ZnN and Mn3GaN , 1980 .