A. Physics
3 Papers
2 Citations
A. Physics is an academic researcher. The author has contributed to research in topics: Antiferromagnetism & Nernst equation. The author has an hindex of 2, co-authored 3 publications.
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Papers
Magnetic Kagome Superconductor CeRu$_2$
Lina Deng,Melissa Gooch,H. X. Liu,Trevor Bontke,Jing-Yang You,S. X. Shao,J. Yin,Dirk Schulze,Yi Shi,Guoqing Chang,Qimiao Si,C. W. C. T. C. F. Superconductivity,D. Physics,U. Houston,Houston,Texas,USA.,B. B. L. F. S. S. Physics,Institute of Applied Physics,Chinese Academy of Sciences,Beijing,China.,University of Chinese Academy of Sciences,National University of Singapore,Singapore,D. Physics,A. Physics,School of Physical,M. Sciences,Nanyang Technological University,Laboratory for Topological Quantum Matter,B7 AdvancedSpectroscopy,P. University,Princeton,New Jersey,Centre for Materials,D. PhysicsAstronomy,Rice Center for Quantum Materials,R. University,L. Laboratory,Berkeley,California +41 more
- 01 Apr 2022
TL;DR: In this paper , a magnetic superconductor CeRu 2 with a kagome network formed by Ru atoms was studied under high pressure and magnetic, resistivity and structural measurements under pressure up to 168 GPa.
2
Nonlinear and nonreciprocal transport effects in untwinned thin films of ferromagnetic Weyl metal SrRuO$_3$
Uddipta Kar,Elisha Cho-Hao Lu,Young-Kwon Han,Xinwei Li,Cheng-Tung Cheng,Song Yang,Chun-Yen Lin,I-Chun Cheng,Chia Hung Hsu,David Hsieh,Wei-Cheng Lee,Guang-Yu Guo,W. K. D. O. Physics,A. Sinica,Nankang,Taipei,Taiwan,National Taiwan Normal University,A. Physics,Astronomy,Binghamton University,Binghamton,N. York,USA.,California Institute of Technology.,Pasadena,California,N. Center,Hsinchu,Technology,P. Division,National Center for Energy Sciences,Optoelectronics +32 more
- 10 Jul 2023
TL;DR: In this paper , the authors reported the experimental observations of large nonlinear and non-reciprocal transport effects for both longitudinal and transverse channels in an untwinned Weyl metal of SrRuO$_3$ thin film grown on a SrTiO${3}$ substrate.
Identifying the octupole Antiferromagnetic domain orientation in Mn$_{3}$NiN by scanning Anomalous Nernst Effect microscopy
F. Johnson,J. Kim'ak,Jan Zemen,Z. vSob'avn,E. Schmoranzerov'a,Joao Godinho,P. Nvemec,S. Beckert,H. Reichlov'a,David Boldrin,Joerg Wunderlich,L. Laboratory,I. College,Prince Consort Rd,London SW7 2AZ,United Kingdom,Faculty of Mathematics,Physics,Charles University,Prague,16 121,Czech Republic,Faculty of Electrical Engineering,Czech Technical University,2. Technicka,27 Prague166,Czech Republic Department of Physics,Czech Academy of Sciences,18121,Czech Republic Institut fur Festkorper- und Materialphysik,Tech. U. Dresden,01314 Dresden,Germany Supa,S. O. Physics,Astronomy,U Glasgow,G12 8QQ,United Kingdom Institute of Experimental,A. Physics,U. Regensburg,93040 Regensburg,German +41 more
TL;DR: In this article , a temperature gradient is induced in a 50 nm thick Mn 3 NiN two-micron-size Hall cross by a focused scanning laser, and the sign of each component of the anomalous Nernst effect is determined by the local antiferromagnetic domain state.