冯红涛,男,生于1978年9月。副教授,博士生导师。2006年10月于南京大学物理系获粒子物理与原子核物理学博士学位,2006年11月至2008年1月在南京大学天文系从事博士后研究。2009年1月起任东南大学物理系副研究员。已在Physical Review D, Physics Letters B,EPJC等国际杂志发表SCI论文30余篇。
联系方式:Email: fenght@seu.edu.cn, 电话: 13675107037
研究领域:二维强关联系统,具体的方向为:
1、三维量子电动力学
2、磁场中强关联系统的热力学性质
3、少体物理
获得过的项目资助:
1) 层状强关联系统的相变研究,校优秀青年教师科学研究资助基金
2) 三维量子电动力学的相变研究,青年基金
3) 基于DS方程研究三维量子电动力学,理论物理合作研修项目
近年来发表的文章列表:
[1] Feng Hong-tao*, Shi Song, Sun Wei-min, and Zong Hong-shi, Chiral phase diagram inQED3, Physical Review D 86, 045020 (2012-8-15) and Erratum: Physical Review D86, 129903 (2012).
[2] Feng Hong-tao*, Shi Song, Yin Pei-lin, and Zong Hong-shi, Chiral phase transition and critical end point in QED3, Physical Review D 86, 065002 (2012).
[3] Zhou Yu-qing*, Dong Ke, and Feng Hong-tao, A Toy model to study the peak of chiral susceptibility and chiral phase transition at finite temperature, Modern Physics Letters A 27(27), 1250156 (2012).
[4] Feng Hong-tao*, Crossover from chiral susceptibility in QED3, Modern Physics Letters A 27(36), 1250209 (2012).
[5] Feng Hong-tao*, Wang Bin, Sun Wei-min, and Zong Hong-shi, Characteristic of chiral phase transition in QED3 at zero density, Physical Review D 86, 105042(2012).
[6] Zhu Hui-xia, Feng Hong-tao, Sun Wei-min, and Zong Hong-shi*, Discussion for the Solutions of Dyson-Schwinger Equations at m≠ 0in QED3, Journal of Modern Physics 4,151-156 (2013).
[7] Feng Hong-tao*, Yin Pei-lin, Sun Wei-min, and Zong Hong-shi, Dual Fermion Condensate and Phase Transition in QED3, Science China: Physics, Mechanics & Astronomy56(6), 1116-1119 (2013).
[8] Feng Hong-tao*, Wang Bin, Sun Wei-min, and Zong Hong-shi, Critical behavior of QED3 at finite temperature and density, European Physical Journal C 73, 2444 (2013).
[9] Li Jian-feng, Feng Hong-tao, Jiang Yu, Sun Wei-min, and Zong Hong-shi*, Calculation of the staggered spin correlation in the framework of the Dyson-Schwinger approach, Physical Review D 88, 116008 (2013).
[10] Feng Hong-tao*, Yu-qing Zhou, Sun Wei-min, and Zong Hong-shi, Staggered spin susceptibility and chiral phase transition in thermal QED3, Physical Review D 88, 125022(2013).
[11] Yin Pei-lin, Cui Zhu-fang, Feng Hong-tao, and Zong Hong-shi*, The chiral phase transition of QED3 around the critical number of fermion flavors, Annals of Physics 348, 306-314(2014).
[12] Yin Pei-lin, Shi Yuan-mei, Cui Zhu-fang, Feng Hong-tao, and Zong Hong-shi*, Continuum study of various susceptibilities within thermal QED3, Physical Review D 90, 036007(2014).
[13] Feng Hong-tao*, Li Jian-feng, Shi Yuan-mei, and Zong Hong-shi, Nature of chiral phase transition in QED3at zero density, Physical Review D 90, 065005 (2014).
[14] Li Jian-feng, Hou Feng-yao, Cui Zhu-fang, Feng Hong-tao, Jiang Yu, and Zong Hong-shi*, Influence of gauge boson mass on the staggered spin susceptibility, Physical Review D90, 073013(2014).
[15] Feng Hong-tao*, Hou Feng-yao, Xia Yong-hui, Wang Jun-yi, and Zong Hong-shi, Different critical points of chiral and deconfinement phase transitions in (2+1)-dimensional fermion-gauge interacting model, The European Physical Journal C 74, 3216 (2014).
[16] Wang Xiu-Zhen, Li Jian-feng, Yu Xin-Hua and Feng Hong-tao*,Critical Behavior of Dynamical Chiral Symmetry Breaking with Gauge Boson Mass in QED3, Chinese Physics Letters 32, 111102 (2015).
[17] Pei-lin Yin,Wei Wei,Hai-xiao Xiao,Feng Hong-tao, Xiao-jun Liu,Zong Hong-shi,Chiral phase transition in QED3 at finite temperature and impurity potential, Physical Review D 93(2016).
[18] Feng Hong-tao, Xiu-Zhen Wang, Xin-hua Yu, and Zong Hong-shi, Influence of boson mass on chiral phase transition in QED3, Physical Review D 94, 045022 (2016)