Paul Malinowski
University of Washington
29 Papers
499 Citations
Paul Malinowski is an academic researcher from University of Washington. The author has contributed to research in topics: Magnetism & Monolayer. The author has an hindex of 8, co-authored 24 publications. Previous affiliations of Paul Malinowski include University of California, San Diego.
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Papers
Two-dimensional itinerant ferromagnetism in atomically thin Fe3GeTe2.
Zaiyao Fei,Bevin Huang,Paul Malinowski,Wenbo Wang,Tiancheng Song,Joshua Sanchez,Wang Yao,Di Xiao,Xiaoyang Zhu,Andrew F. May,Weida Wu,David Cobden,Jiun-Haw Chu,Xiaodong Xu +13 more
TL;DR: It is demonstrated that Fe3GeTe2 (FGT), an exfoliable vdW magnet, exhibits robust 2D ferromagnetism with strong perpendicular anisotropy when thinned down to a monolayer.
1.3K
Two-Dimensional Itinerant Ising Ferromagnetism in Atomically thin Fe3GeTe2
Zaiyao Fei,Bevin Huang,Paul Malinowski,Wenbo Wang,Tiancheng Song,Joshua Sanchez,Wang Yao,Di Xiao,Xiaoyang Zhu,Andrew F. May,Weida Wu,David Cobden,Jiun-Haw Chu,Xiaodong Xu +13 more
TL;DR: In this paper, a 2D itinerant ferromagnetic metal with strong out-of-plane anisotropy was synthesized for the first time, and it was shown to exhibit labyrinthine domain patterns.
450
Magnetic proximity and nonreciprocal current switching in a monolayer WTe2 helical edge.
Wenjin Zhao,Zaiyao Fei,Tiancheng Song,Han Kyou Choi,Tauno Palomaki,Bosong Sun,Paul Malinowski,Michael A. McGuire,Jiun-Haw Chu,Xiaodong Xu,David Cobden +10 more
TL;DR: The coupling between magnetism and topology is studied in a van der Waals heterostructure and it is found that the edge conductance is sensitive to the magnetization state of the CrI3, and the coupling can be understood in terms of an exchange field from the nearest and next-nearest CrI 3 layers that produces a gap in the helical edge.
74
Suppression of superconductivity by anisotropic strain near a nematic quantum critical point
Paul Malinowski,Qianni Jiang,Joshua Sanchez,Joshua Mutch,Zhaoyu Liu,Preston Went,Jian Liu,Philip Ryan,Philip Ryan,Jong-Woo Kim,Jiun-Haw Chu +10 more
TL;DR: In this paper, anisotropic strain, the conjugate field of nematicity, has been shown to reduce the superconducting critical temperature of an iron pnictide.
57
The transport-structural correspondence across the nematic phase transition probed by elasto X-ray diffraction.
Joshua Sanchez,Paul Malinowski,Joshua Mutch,Jian Liu,Jong-Woo Kim,Philip Ryan,Philip Ryan,Jiun-Haw Chu +7 more
TL;DR: In this paper, the authors combine simultaneous transport and X-ray diffraction measurements with in-situ tunable strain to measure the temperature dependence of the shear modulus and elastoresistivity above the nematic transition and the spontaneous orthorhombicity and resistivity anisotropy below the Nematic transition of Co-doped BaFe2As2.
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