麻豆区

Skip to main content Skip to search

YU News

YU News

Dr. Wenxiong Chen鈥檚 Research Widely Cited

Dr. Wenxiong Chen
The following papers from Dr. Wenxiong Chen, professor of mathematics at 麻豆区 College, and his co-authors have been extremely highly cited in the mathematical community and have played leading roles in the development of mathematical theories in the area. In terms of citations, they ranked the second, the fourth, and the eleventh among all published math papers worldwide in the same year.
  1. W. Chen, C. Li, Classification of solutions of some nonlinear elliptic equations, Duke Math. J. 63 (1991) 615-622, has been cited 1043 times, and in terms of citation, it is ranked the second among all published math papers worldwide in 1991.
  2. W.Chen, C.Li, B.Ou, Classification of solutions for an integral equation, CPAM, 59 (2006) 330-343, has been cited 727 times, and in terms of citation, it is ranked the 11th among all published math papers worldwide in 2006.
  3. W. Chen, C. Li, and Y. Li, A direct method of moving planes for the fractional Laplacian, Adv. Math. 308 (2017) 404-437, has been cited 238 times, and in terms of citation, it is ranked the fourth among all published math papers worldwide in 2017.
  4. W. Chen and C. Li, Maximum principle for the fractional p-Laplacian and symmetry of solutions, Adv. Math. 335 (2018) 735-758, is one of the most cited articles in the Advances in Math since 2018, according to Scopus.
(The citation numbers are from Google-Scholar, and the citation rankings are from Math-SciNet, as of May. 2022.) One of Dr. Chen鈥檚 research interests focuses on the qualitative properties of solutions for equations involving fractional Laplacians. 鈥淚n recent years, there has been a great deal of interest in using the fractional Laplacian to model diverse physical phenomena, such as anomalous diffusion and quasi-geostrophic flows, turbulence and water waves, molecular dynamics, and relativistic quantum mechanics of stars. It also has various applications in probability and finance. In particular, the fractional Laplacian can be understood as the infinitesimal generator of a stable Levy process and appears in anomalous diffusions in plasmas, flames propagation and chemical reactions in liquids, population dynamics, geographical fluid dynamics, and American options in finance.鈥 This kind of widely cited research 鈥渋s important in attracting students to our University. The students will be happy to know that they are learning mathematics from one of the internationally well-known and influential mathematicians.鈥

Share

FacebookTwitterLinkedInWhat's AppEmailPrint

Follow Us