唐恒才
姓名:唐恒才
职称:教授
办公室:203
邮箱: hctang@henu.edu.cn
研究方向:解析数论
教育背景:
2005.09-2010.07, 硕博连读, 山东大学, 基础数学
2001.09-2005.07, 学士, 曲阜师范大学, 数学与应用数学
工作经历:
2022.02-至今 BEVITOR伟德APP官网,教授
2016.04-2022.02 BEVITOR伟德APP官网, 副教授
2019.07-2020.07 香港大学, 访问学者
2014.08-2015.08 洛林大学, 访问学者
2010.07-2016.04 BEVITOR伟德APP官网, 讲师
研究领域:素数分布、L-函数
学术论文:
[25] H. C. Tang, Gaps between zeros of automorphic L-functions for GL(2), Acta Math. Sinica, Chinese Series, 65 (2022), 275-286.
[24] Y-K Lau, M. H. Ng, H. C. Tang & Y. N. Wang, On the first negative Hecke eigenvalue of an automorphic representation of GL_2(A_Q), Science Math. China, 64 (2021), 2381-2394.
[23] H. C. Tang, A note on Titchmarsh divisor problem under the generalized Riemann Hypothesis, Rocky Mountain J. Math., 50 (2020), 2223-2233.
[22] H. C. Tang & J. Wu, Shifted convolution sums related to Hecke-Maass forms, Ramanujan J., 55(2021), 1083-1104.
[21] H. C. Tang, Shifted convolution sum of d3and the Fourier coefficient of Hecke-Maass forms II, Bull. Australian Math. Soc., 101 (2020), 401-414.
[20] H. C. Tang & X. X. Xiao, Values of automorphic L-functions with prime level at point s=1, Ramanujan J., 43 (2017), 551–569.
[19] H. C. Tang & X. X. Xiao, Integral moments of automorphic L-function, Int. J. Number Theory, 12 (2016), 1827–1843.
[18] H. C. Tang & Y. N. Wang, Quantitative versions of the joint distributions of Hecke eigenvalue, J. Number Theory, 169 (2016), 295–314.
[17] H. C. Tang & J. Wu, Fourier coefficients of symmetric power L-functions, J. Number Theory, 167 (2016), 147–160.
[16] H. C. Tang & Z. Xu, Central value of the symmetric square L-functions related to Hecke-Maass forms, Lith. Math. J., 56 (2016), 251–267.
[15] H. C. Tang, Estimates for Fourier coefficients of cusp forms in weight aspect, Chinese Ann. Math. Ser. B., 37 (2016), 793–802.
[14] H. C. Tang, Shifted convolution sum of d3and the Fourier coefficient of Hecke-Maass forms, Bull. Australian Math. Soc., 92 (2015), 195–204.
[13] G. S. Lü & H. C. Tang, Sums of Fourier coefficients related to Hecke eigencusp forms, Ramanujan J., 37 (2015), 309–327.
[12] H. C. Tang & F. Zhao, Waring-Goldbach problem for fourth powers in short intervals, Front. Math. China, 8 (2013), 1407–1423.
[11] H. C. Tang, Zero density of L-functions related to Maass forms, Front. Math. China, 8 (2013), 923–932.
[10] H. C. Tang, Estimates for the Fourier coefficients of symmetric square L-functions, Archiv der Math., 100 (2013), 123–130.
[9] H. C. Tang, Lower bound for the higher moment of symmetric square L-functions, J. Number Theory, 133 (2013), 2143–2152.
[8] H. C. Tang, A note on the Fourier coefficients of Hecke-Maass forms, J. Number Theory, 133 (2013), 1156–1167.
[7] H. C. Tang, Central values of the symmetric square L-functions related to Maass forms, Science in China, 42 (2012), 1213–1224 (in Chinese).
[6] H. C. Tang, A note on Waring-Goldbach problems in short intervals, Lith. Math. J., 51 (2011), no. 1, 75–81.
[5] T. Y. Li & H. C. Tang, On a theorem of Prachar involving prime powers, Integers, A59 (2011), 1–22.
[4] H. C. Tang, Prime divisors in special Beatty sequences, Chinese Ann. Math. Ser. A, 31 (2010), no. 4, 403–410.
[3] G. S. Lü & H. C. Tang, On some results of Hua in short intervals, Lith. Math. J., 50 (2010), no. 1, 54–70.
[2] H. C. Tang, The generalized prime number theorem for automorphic L-functions, Chinese Ann. Math. Ser. B, 30 (2009), no. 3, 251–260.
[1] Q. F. Sun & H. C. Tang, Hua’s theorem with s almost equal prime variables, Acta Math. Sin. Engl. Ser., 25 (2009), no. 7, 1145–1156.
科研项目:
4. 自守L函数的解析性质(222300420034),河南省优秀青年基金,2022.01-2024.12, 25万,在研,主持;
3. 尖形式Fourier系数的均值估计及其应用(11871193),国家自然科学基金面上项目,2019.01-2022.12, 53万,结题,主持;
2. 对称平方L函数的均值估计及其应用(11301142), 国家自然科学基金青年项目,2014.01-2016.12, 23万,结题,主持;
1. 对称L函数的二次积分均值及其应用(11126151), 国家自然科学基金天元项目,2012.01-2012.12, 3万,结题,主持;
主讲课程:
数学分析,复变函数,初等数论,概率论与数理统计
社会兼职:
Math Review 评论员
学术交流:
8. 2021年11月受邀在中国数学会年会上做题为The first negative Fourier coefficient of Hecke-Maass form的报告,云南昆明;
7. 2019年1月主办会议A mini-workshop on Analytic Number Theory,BEVITOR伟德APP官网;
6. 2018年11月受邀在第七届中南九省(区、市)数学学术年会上做题为Shifted convolution sums related to the divisor function and the Fourier coefficient of cusp forms的报告,三峡大学,湖北宜昌;
5. 2018年4月受邀在第十四届国际数论与Smarandache问题会议做题为Titchmarsh divisor problem under Riemann Hypothesis的报告,陕西杨凌;
4. 2016年12月受邀在数论与模形式研讨会做题为Zero density estimates of Hecke L-functions near σ = 1的报告,渭南师范学院;
3. 2016年11月受邀在973项目学术会议——2016解析数论与密码研讨会上做题为Shifted convolution sumsrelated to Hecke-Maass forms的报告,中国矿业大学,北京;
2. 2016年3月受邀在第十二届国际数论与Smarandache问题会议做题为Shifted convolution sums of Fourier coefficients of cusp forms with divisor functions的报告,陕西安康;
1. 2014年3月受邀在第十届国际数论与Smarandache问题会议做题为Sums of Fourier coefficient of cusp forms over square-full numbers的报告,河南洛阳;
荣誉与奖励:
6. 2020年 开封市优秀教师
5. 2020年 开封市第十四届青年科技奖
4. 2019年 河南省自然科学奖叁等奖(第一)
3. 2019年 河南省高校青年骨干教师
2. 2019年 河南省教育厅科技成果奖壹等奖(第一)
1. 2012年 BEVITOR伟德APP官网教学质量竞赛贰等奖