Your search keyword '"Mandrus DG"' showing total 5 results

1. Symmetry crossover in layered MPS3 complexes (M=Mn, Fe, Ni) via near-field infrared spectroscopy

Author

Neal, SN, Kim, H-S, O'Neal, KR, Haglund, AV, Smith, KA, Mandrus, DG, Bechtel, HA, Carr, GL, Haule, K, Vanderbilt, David, and Musfeldt, JL

Subjects

Physical Sciences, Chemical Sciences, Physical Chemistry, Chemical sciences, Engineering, Physical sciences

Abstract

We employ synchrotron-based near-field infrared spectroscopy to reveal the vibrational properties of bulk, few-sheet, and single-sheet members of the MPS3 (M=Mn, Fe, Ni) family of materials and compare our findings with complementary lattice dynamics calculations. MnPS3 and the Fe analog are similar in terms of their symmetry crossovers, from C2/m to P3¯1m, as the monolayer is approached. These states differ as to the presence of a C3 rotation around the metal center. On the other hand, NiPS3 does not show a symmetry crossover, and the lack of a Bu symmetry mode near 450 cm-1 suggests that C3 rotational symmetry is already present, even in the bulk material. We discuss these findings in terms of local symmetry and temperature effects as well as the curious relationship between these symmetry transformations and those that take place under pressure.

Published

2020

2. The nature of ferromagnetism in the chiral helimagnet Cr1/3NbS2

Author

Sirica, N, Vilmercati, P, Bondino, F, Pis, I, Nappini, S, Mo, S-K, Fedorov, AV, Das, PK, Vobornik, I, Fujii, J, Li, L, Sapkota, D, Parker, DS, Mandrus, DG, and Mannella, N

Subjects

Physical Sciences, Condensed Matter Physics, Engineering, Mathematical sciences, Physical sciences

Abstract

The chiral helimagnet Cr1/3NbS2 hosts exotic spin textures, whose influence on the magneto-transport properties make this material an ideal candidate for future spintronic applications. To date, the interplay between macroscopic magnetic and transport degrees of freedom is believed to result from a reduction in carrier scattering following spin order. Here, we present electronic structure measurements across the helimagnetic transition temperature TC that challenges this view. We show that the Fermi surface is comprised of strongly hybridized Nb- and Cr-derived electronic states, and that spectral weight close to the Fermi level increases anomalously as the temperature is lowered below TC. These findings are rationalized on the basis of first principle density functional theory calculations, which reveal a large nearest-neighbor exchange energy, suggesting the interaction between local spin moments and hybridized Nb- and Cr-derived itinerant states to go beyond the perturbative interaction of Ruderman-Kittel-Kasuya-Yosida, suggesting instead a mechanism rooted in a Hund’s exchange interaction.

Published

2020

3. Author Correction: The nature of ferromagnetism in the chiral helimagnet Cr1/3NbS2

Author

Sirica, N, Vilmercati, P, Bondino, F, Pis, I, Nappini, S, Mo, S-K, Fedorov, AV, Das, PK, Vobornik, I, Fujii, J, Li, L, Sapkota, D, Parker, DS, Mandrus, DG, and Mannella, N

Subjects

Physical Sciences, Engineering, Mathematical sciences, Physical sciences

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

4. Electronic structure of the chiral helimagnet and 3d-intercalated transition metal dichalcogenide Cr1/3NbS2

Author

Sirica, N, Mo, S-K, Bondino, F, Pis, I, Nappini, S, Vilmercati, P, Yi, J, Gai, Z, Snijders, PC, Das, PK, Vobornik, I, Ghimire, N, Koehler, MR, Li, L, Sapkota, D, Parker, DS, Mandrus, DG, and Mannella, N

Subjects

Physical Sciences, Condensed Matter Physics, Chemical sciences, Engineering, Physical sciences

Abstract

The electronic structure of the chiral helimagnet Cr1/3NbS2 has been studied with core level and angle-resolved photoemission spectroscopy (ARPES). Intercalated Cr atoms are found to be effective in donating electrons to the NbS2 layers but also cause significant modifications of the electronic structure of the host NbS2 material. In particular, the data provide evidence that a description of the electronic structure of Cr1/3NbS2 on the basis of a simple rigid band picture is untenable. The data also reveal substantial inconsistencies with the predictions of standard density functional theory. The relevance of these results to the attainment of a correct description of the electronic structure of chiral helimagnets, magnetic thin films/multilayers, and transition metal dichalcogenides intercalated with 3d magnetic elements is discussed.

Published

2016

5. Near-field infrared spectroscopy of monolayer MnPS3

Author

Neal, SN, Kim, HS, Smith, KA, Haglund, AV, Mandrus, DG, Bechtel, HA, Carr, GL, Haule, K, Vanderbilt, D, and Musfeldt, JL

Subjects

Engineering, Fluids & Plasmas, Physical Sciences, Chemical Sciences

Abstract

We measured the near-field infrared response of MnPS3 in bulk, few-, and single-layer form and compared our findings with traditional far-field vibrational spectroscopies, a symmetry analysis, and first-principles lattice dynamics calculations. Trends in the Bu mode near 450cm-1 are striking, with the disappearance of this structure in the thinnest sheets. Combined with the amplified response of the activated Ag mode and analysis of the Au+Bu features, we find that symmetry is unexpectedly increased in few- and single-sheet MnPS3 due to a restoration of the threefold axes of rotation. Monoclinicity in this system is therefore a consequence of the long-range stacking pattern and temperature rather than local structure.

Published

2019