Determination of nonthermal bonding origin of a novel photoexcited lattice instability in SnSe
Publication
, Preprint
Huang, Y; Teitelbaum, S; Yang, S; na, GDLP; Chollet, TSM; Zhu, D; Niedziela, JL; Bansal, D; May, AF; Lindenberg, AM; Delaire, O; Trigo, M; Reis, DA
January 21, 2023
Duke Scholars
Publication Date
January 21, 2023
Citation
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Chicago
ICMJE
MLA
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Huang, Y., Teitelbaum, S., Yang, S., na, G. D. L. P., Chollet, T. S. M., Zhu, D., … Reis, D. A. (2023). Determination of nonthermal bonding origin of a novel photoexcited
lattice instability in SnSe.
Huang, Yijing, Samuel Teitelbaum, Shan Yang, Gilberto De la Pe na, Takahiro Sato Matthieu Chollet, Diling Zhu, Jennifer L. Niedziela, et al. “Determination of nonthermal bonding origin of a novel photoexcited
lattice instability in SnSe,” January 21, 2023.
Huang Y, Teitelbaum S, Yang S, na GDLP, Chollet TSM, Zhu D, et al. Determination of nonthermal bonding origin of a novel photoexcited
lattice instability in SnSe. 2023.
Huang, Yijing, et al. Determination of nonthermal bonding origin of a novel photoexcited
lattice instability in SnSe. 21 Jan. 2023.
Huang Y, Teitelbaum S, Yang S, na GDLP, Chollet TSM, Zhu D, Niedziela JL, Bansal D, May AF, Lindenberg AM, Delaire O, Trigo M, Reis DA. Determination of nonthermal bonding origin of a novel photoexcited
lattice instability in SnSe. 2023.
Publication Date
January 21, 2023