WebHere, by utilizing the stacking-dependent interlayer exchange interactions in CrI3, we demonstrate in small-twist-angle CrI3 bilayers a noncollinear magnetic ground state. It consists of antiferromagnetic (AF) and ferromagnetic (FM) domains and is a result of the competing interlayer AF coupling in the monoclinic stacking regions of the moiré ... WebTwo-dimensional magnetic materials provide an ideal platform to explore collective many-body excitations associated with spin fluctuations. In particular, it should be feasible to explore, manipulate, and ultimately design magnonic excitations in two-dimensional van der Waals magnets in a controllable way. Here we demonstrate the emergence of moiré …
ICII-2024 International Conference on Internal Interfaces
WebOct 1, 2024 · The twisted systems have E int close to the values of the LT phase (about –4.00 and –0.39 eV for Cr and I intercalation, respectively). These results suggest that self-intercalation of Cr or I atoms into the vdW gap of stacked or twisted CrI 3 bilayer is energetically feasible. WebChallenges and opportunities in 2D heterostructures for electronic and optoelectronic devices the tallgrass prairie reader
van der Waals Heterostructures with High Accuracy Rotational …
WebHere, by utilizing the stacking-dependent interlayer exchange interactions in CrI3, we demonstrate in small-twist-angle bilayer CrI3 a noncollinear magnetic ground state. It consists of both antiferromagnetic (AF) and ferromagnetic (FM) domains and is a result of the competing interlayer AF coupling in the monoclinic stacking regions of the moiré … WebSep 1, 2024 · CrI3, a hot two-dimensional (2D) magnet, exhibits complex magnetism depending on the number of layers and interlayer stacking patterns. For bilayer CrI3, the interlayer magnetism can be tuned between ferromagnetic (FM) and antiferromagnetic (AFM) order by manipulating the stacking order. However, the stacking is mostly modified … WebNov 8, 2024 · We report the connection between the stacking order and magnetic properties of bilayer CrI3 using first-principles calculations. We show that the stacking order defines the magnetic ground state. By changing the interlayer stacking order, one can tune the interlayer exchange interaction between antiferromagnetic and ferromagnetic. To … serenity health and wellness ketchikan