SciPost Submission Page
High field magnetism of the triangular lattice antiferromagnet CsFeCl3 under high pressure
by Katsuki Nihongi , Takanori Kida , Yasuo Narumi , Nobuyuki Kurita , Hidekazu Tanaka, Yoshiya Uwatoko, Koichi Kindo and Masayuki Hagiwara
This Submission thread is now published as
Submission summary
| Authors (as registered SciPost users): | Katsuki Nihongi |
| Submission information | |
|---|---|
| Preprint Link: | scipost_202207_00035v2 (pdf) |
| Date accepted: | 2023-04-25 |
| Date submitted: | 2023-01-20 06:00 |
| Submitted by: | Nihongi, Katsuki |
| Submitted to: | SciPost Physics Proceedings |
| Proceedings issue: | International Conference on Strongly Correlated Electron Systems (SCES2022) |
| Ontological classification | |
|---|---|
| Academic field: | Physics |
| Specialties: |
|
| Approach: | Experimental |
Abstract
Magnetization measurements of the triangular lattice antiferromagnet CsFeCl3 at 1.4 K for H || c were performed in pulsed high magnetic fields of up to 51 T under high pressures of up to 0.80 GPa. At ambient pressure, small magnetization below Hc1 = 4 T changes steeply between Hc1 and Hc2 =12 T, then showing the magnetization with small slope up to Hm =33 T where metamagnetic transition with two steps occurs. With increasing pressure, the Hc1 and Hm shifted to the low-field side, while Hc2 shifted to the opposite side. The change in the Hm may depend on the difference in the single-ion anisotropies on pressure in the lowest J = 1 and the excited J = 2 states.
Author comments upon resubmission
We thank you very much for reading our manuscript (scipost_202207_00035v1) carefully and giving us useful and instructive comments.
We submit re-upload manuscript.
Sincerely Yours,
Masayuki Hagiwara
List of changes
1. In the caption of Fig2(a), we add the sentence “The curves are shifted up by 0.5 from the ambient-pressure curve with increasing pressure for clarity.”
2. The D_e in Fig. 1(b) has changed because of the definition of D_e (D_eS_2^z2 : S_2^z is actually J_2^z)
Published as SciPost Phys. Proc. 11, 012 (2023)