关于申报2024年度云南红河熊庆来科学技术杰出贡献奖的公示
各单位:
按照《关于开展 2024年度云南红河熊庆来科学技术杰出贡献奖评选工作的通知》的相关要求,现对拟申报2024年度云南红河熊庆来科学技术杰出贡献奖的申报奖项、候选人、候选人的主要科学技术成就和贡献、候选人论文或专著发表情况、候选人论文或专著被引用的检索证明、候选人曾获奖励情况等予以公示。
一、 申报奖项
云南红河熊庆来科学技术杰出贡献奖
二、候选人
何斌(数学与统计学院)
三、候选人的主要科学技术成就和贡献
主要依托主持的国家自然科学基金项目“某些非线性波方程的周期波的动力学性质、精确参数表示和极限形式研究”(编号:11461022),云南省科技计划项目“平面分支、符号计算方法及其在非线性波研究中的应用”(编号:2007A080M)、“非线性波动方程(组)的非连续轨道的动力学性质和精确解”(编号:2013FZ117)、“某些数学物理方程的周期波和周期波的极限形式研究”(编号:2014FA037)和参与的国家自然科学基金项目“非线性波方程行波系统的动力学性质和精确解研究”(编号:11161020)对非线性发展方程行波解的动力学行为和其他相关问题开展研究。
2019年以前主要研究非线性发展方程非线性系统行波解的分支现象、行波解的存在性、行波解的精确参数表示;非线性发展方程周期波解的极限形式;非线性发展方程的符号计算方法和精确解;非线性发展方程的对称分析和相似解等。并在以下几个方面取得系列成果:(1)将动力系统分支方法与微分方程定性理论、微分方程因式分解技巧相结合,发现了多类非线性发展方程行波解的孤立波分支、扭子波分支、孤立尖波分支、周期尖波分支和loop孤子分支。证明了在不同参数条件下各类非线性波的存在性,给出了各类非线性波的精确表示。(2)将动力系统分支方法与广义函数理论相结合,证明了几类非线性发展方程光滑周期波、周期爆破波、周期loop孤子、周期尖波、周期紧孤立波和奇异周期波的存在性。通过理论分析和数值模拟,揭示了各类周期波与其它非线性波的内在关系。发现了新的广义周期尖波和广义周期紧孤立波,给出了各类周期波与它们的极限形式的精确表示。(3)将F-展开法、指数函数法、辅助方程方法相结合,改进和拓展了“双F展开法”和“双椭圆函数方法”等符号计算方法并将其应用于非线性发展方程研究,取得了一系列好的研究成果。拓展了“积分分支方法”,得到了改进的Camassa-Holm方程和改进的Degasperis-Procesi方程的loop孤子解和尖孤子解,得到了一类广义Camassa-Holm方程紧孤子解、尖紧孤子解、尖孤立波解和类扭子波解。 (4)将对称分析方法与动力系统分支方法、辅助方程方法、积分分支方法相结合,对一类用于刻画深水表面波的可积演化方程和(3+1)维Kudryashov-Sinelshchikov方程进行了研究,研究了方程的几何向量场和“对称约化”,得到了方程的相似变换,并在此基础上给出了方程丰富的相似解和行波解。
2019年以来主要研究非线性发展方程的双线性形式、lump解、相互作用解和相互作用解的演化行为等。例如,研究了六阶Ramani方程和(2+1)维Vakhnenko方程的双线性形式,并利用三波法得到了方程的多类新的相互作用解。利用广田方法和测试函数方法得到了一类广义(3+1)维非线性波的传播模型新的lump解和相互作用解。利用广田方法和参数极限方法研究了一类广义(3+1)维破切孤子方程的相互作用解和相互作用解的演化行为,得到了方程新的相互作用解和有理解。利用贝尔多项式理论得到了(4+1)维变系数Fokas方程的双线性贝克隆变换、lump解和相互作用解。目前主要研究非线性发展方程的变量分离解和非线性波的局域激发。
累计发表SCI收录论文56篇,其中以第一作者和通讯作者身份发表的30篇主要代表性论文被SCI收录论文引用398次,其中他人引用303次。
2013年3月,成果“非线性波方程精确解研究和动力系统方法”获云南省自然科学奖二等奖(排名第一)。
2023年6月,成果“若干非线性发展方程的行波解分支,周期波的极限形式和精确解研究”获云南省自然科学奖三等奖(排名第一)。
四、候选人论文或专著发表情况
[1] Bin He*, Qing Meng, Yao Long. The bifurcation and exact peakons, solitary and periodic wave solutions for the Kudryashov-Sinelshchikov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 17 (2012) 4137-4148.
[2] He Bin*, Li Jibin, Long Yao, Rui Weiguo. Bifurcations of travelling wave solutions for a variant of Camassa-Holm equation. NONLINEAR ANALYSIS-REAL WORLD APPLICATIONS, 9 (2008) 222-232.
[3] Bin He*, Qing Meng. Bifurcations and new exact travelling wave solutions for the Gerdjikov-Ivanov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 15 (2010) 1783-1790.
[4] Bin He*, Qing Meng, Shaolin Li. Explicit peakon and solitary wave solutions for the modified Fornberg-Whitham equation. APPLIED MATHEMATICS AND COMPUTATION, 217 (2010) 1976-1982.
[5] Weiguo Rui, Bin He*, Shaolong Xie, Yao Long. Application of the integral bifurcation method for solving modified Camassa-Holm and Degasperis-Procesi equations. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 3459-3470.
[6] Huizhang Yang, Wei Liu, Biyu Yang, Bin He*. Lie symmetry analysis and exact explicit solutions of three-dimensional Kudryashov-Sinelshchikov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 27 (2015) 271-280.
[7] Bin He*. Bifurcations and exact bounded travelling wave solutions for a partial differential equation. NONLINEAR ANALYSIS-REAL WORLD APPLICATIONS, 11 (2010) 364-371
[8] He Bin*, Meng Qing, Long Yao, Rui Weiguo. New exact solutions of the double sine-Gordon equation using symbolic computations. APPLIED MATHEMATICS AND COMPUTATION, 186 (2007) 1334-1346.
[9] Qing Meng, Bin He*, Yao Long, Zhenyang Li. New exact periodic wave solutions for the Dullin-Gottwald-Holm equation. APPLIED MATHEMATICS AND COMPUTATION, 218 (2011) 4533-4537.
[10] He Bin*, Rui Weiguo, Chen Can, Li Shaolin. Exact travelling wave solutions of a generalized Camassa-Holm equation using the integral bifurcation method. APPLIED MATHEMATICS AND COMPUTATION, 206 (2008) 141-149.
[11] Bin He*, Qing Meng, Jinhua Zhang, Yao Long. Periodic Loop Solutions and Their Limit Forms for the Kudryashov-Sinelshchikov Equation. MATHEMATICAL PROBLEMS IN ENGINEERING, 2012 (2012) Article Number: 320163.
[12] Bin He*, Yao Long, Weiguo Rui. New exact bounded travelling wave solutions for the Zhiber-Shabat equation. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 1636-1648.
[13] Qing Meng, Bin He*, Yao Long, Weiguo Rui. Bifurcations of travelling wave solutions for a general Sine-Gordon equation. CHAOS SOLITONS & FRACTALS, 29 (2006) 483-489.
[14] Bin He, Qing Meng*. Three kinds of periodic wave solutions and their limit forms for a modified KdV-type equation. NONLINEAR DYNAMICS, 86 (2016) 811-822.
[15] Bin He*, Qing Meng. Bilinear form and new interaction solutions for the sixth-order Ramani equation. APPLIED MATHEMATICS LETTERS, 98 (2019) 411-418.
[16] Bin He*. New peakon, solitary wave and periodic wave solutions for the modified Camassa-Holm equation. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 6011-6018.
[17] Bin He*, Qing Meng, Weiguo Rui, Yao Long. Bifurcations of travelling wave solutions for the mK(n,n) equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 13 (2008) 2114-2123.
[18] Bin He*, Weiguo Rui, Yao Long. New exact double periodic wave and complex wave solutions for a generalized sinh-Gordon equation. APPLIED MATHEMATICS AND COMPUTATION, 229 (2014) 159-172.
[19] Qing Meng, Wei Li, Bin He*. Smooth and Peaked Solitary Wave Solutions of the Broer-Kaup System Using the Approach of Dynamical System. COMMUNICATIONS IN THEORETICAL PHYSICS, 62 (2014) 308-314.
[20] Bin He*, Qing Meng. Lump and interaction solutions for a generalized (3+1)-dimensional propagation model of nonlinear waves in fluid dynamics. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS, 98 (2021) 592-607.
[21] Bin He*, Qing Meng. New exact explicit peakon and smooth periodic wave solutions of the K(3,2) equation. APPLIED MATHEMATICS AND COMPUTATION, 217 (2010) 1697-1703.
[22] Qing Meng, Bin He*. Notes on "Solitary wave solutions of the generalized two-component Hunter-Saxton system". NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 103 (2014) 33-38.
[23] Meng Qing, He Bin*, Rui Weiguo, Long Yao. New exact solutions of the (n+1)-dimensional sine-Gordon equation using double elliptic equation method. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS, 87 (2010) 591-606.
[24] Yumin Ding, Bin He*, Wei Li. A improved F-expansion method and its application to the Zhiber-Shabat equation. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 35 (2012) 466-473.
[25] Bin He, Qing Meng*. Explicit kink-like and compacton-like wave solutions for a generalized KdV equation. NONLINEAR DYNAMICS, 82 (2015) 703-711.
[26] He Bin*, Rui Weiguo, Li Shaolin, Chen Chan. Bounded travelling wave solutions for a modified form of generalized Degasperis-Procesi equation. APPLIED MATHEMATICS AND COMPUTATION, 206 (2008) 113-123.
[27] Qing Meng, Bin He*. New Interaction Solutions for a (2+1)-Dimensional Vakhnenko Equation. COMPLEXITY, 2020 (2020) Article Number: 5620245.
[28] Bin He*,Qing Meng. Periodic traveling wave solutions and their limit forms for the (n+1)-dimensional double sinh-Gordon equation. OPTIK, 134 (2017) 239-256.
[29] Qing Meng,Bin He*. Bifurcation analysis and exact traveling wave solutions for a generic two-dimensional sine-Gordon equation in nonlinear optics. JOURNAL OF APPLIED ANALYSIS AND COMPUTATION, 10 (2020) 1443-1463.
[30] Bin He*, Qing Meng. Notes on "Different kinds of exact solutions with two-loop character of the two-component short pulse equations of the first kind''. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 19 (2014) 1247-1255.
五、候选人论文或专著被引用的检索证明
[1] Vahid Shirvani-Sh*, Mehdi Nadjafikhah. Conservation laws and exact solutions of the Whitham-type equations. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 19 (2014) 2212-2219.
[2] Jinghua Luo, Engui Fan*. Dbar-dressing method for the Gerdjikov-Ivanov equation with nonzero boundary conditions. APPLIED MATHEMATICS LETTERS, 120 (2021) 107297.
[3] M. S. Bruzon*, E. Recio, R. de la Rosa, M. L. Gandarias. Local conservation laws, symmetries, and exact solutions for a Kudryashov-Sinelshchikov equation. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 41 (2018) 1631-1641.
[4] Temesgen Desta Leta, Jibin Li*. Various Exact Soliton Solutions and Bifurcations of a Generalized Dullin-Gottwald-Holm Equation with a Power Law Nonlinearity. INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS, 27 (2017) 750129.
[5] Ritu Pal, Harleen Kaur, Thokala Soloman Raju*, C. N. Kumar. Periodic and rational solutions of variable-coefficient modified Korteweg-de Vries equation. NONLINEAR DYNAMICS, 89 (2017) 617-622.
[6] Ai-Juan Zhou, Ai-Hua Chen*. Exact solutions of the Kudryashov-Sinelshchikov equation in ideal liquid with gas bubbles. PHYSICA SCRIPTA, 93 (2018) 125201.
[7] Adil Jhangeer, Amjad Hussain, M. Junaid-U-Rehman, Dumitru Baleanu*, Muhammad Bilal Riaz*. Quasi-periodic, chaotic and travelling wave structures of modified Gardner equation. CHAOS, SOLITONS AND FRACTALS, 143 (2021) 110578.
[8] Bei Zhang, Yonghui Xia*, Wenjing Zhu, Yuzhen Bai. Explicit exact traveling wave solutions and bifurcations of the generalized combined double sinh-cosh-Gordon equation. APPLIED MATHEMATICS AND COMPUTATION, 363 (2019) 124576.
[9] Merle Randruut*, Manfred Braun. On identical traveling-wave solutions of the Kudryashov-Sinelshchikov and related equations. INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS, 58 (2014) 206-211.
[10] N.A. Kudryashov*. On nonlinear differential equation with exact solutions having various pole orders. CHAOS, SOLITONS AND FRACTALS, 75 (2015) 173-177.
[11] Chunhai Li, Shuangquan Wen, Aiyong Chen*. Single peak solitary wave and compacton solutions of the generalized two-component Hunter-Saxton system. NONLINEAR DYNAMICS, 79 (2015) 1575-1585.
[12] Santanu Saha Ray*, B Sagar. Numerical solution of fractional Dullin-Gottwald-Holm equation for solitary shallow water waves. NUMERICAL METHODS FOR PARTIAL DIFFERENTIAL EQUATIONS, 38 (2022) 1556-1569.
[13] Jiyu Zhong,Shengfu Deng*. Traveling Wave Solutions of a Two-Component Dullin-Gottwald-Holm System. JOURNAL OF COMPUTATIONAL AND NONLINEAR DYNAMICS, 12 (2017) 031006.
[14] Giuseppe Maria Coclite*, Lorenzo di Ruvo. Existence results for the Kudryashov-Sinelshchikov-Olver equation. PROCEEDINGS OF THE ROYAL SOCIETY OF EDINBURGH, 151 (2021) 425-450.
[15] Gao-Qing Meng*, Yu-Song Pan, Hao-feng Tan, Xi-Yang Xie. Analytic solutions for the (2+1)-dimensional generalized sine-Gordon equations in nonlinear optics. COMPUTERS AND MATHEMATICS WITH APPLICATIONS, 76 (2018) 1535-1543.
[16] Jalil Manafian*, Onur Alp Ilhan, Asad Alizadeh. Periodic wave solutions and stability analysis for the KP-BBM equation with abundant novel interaction solutions. PHYSICA SCRIPTA, 95 (2020) 065203.
[17] Dipankar Kumar, Chun-Ku Kuo, Gour Chandra Paul*, Jui Saha, Israt Jahan. Wave propagation of resonance multi-stripes, complexitons, and lump and its variety interaction solutions to the (2+1)-dimensional pKP equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 100 (2021) 105853.
[18] Meng-Jun Li, Hou-Ping Dai*, Xue-Dan Wei, Wei Tan. Some new soliton solutions and dynamical behaviours of (3+1)-dimensional Jimbo-Miwa equation. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS,99 (2022) 1654-1668.
[19] Sachin Kumar, Monika Niwas*, Shubham Kumar Dhiman. Abundant analytical soliton solutions and different wave profiles to the Kudryashov-Sinelshchikov equation in mathematical physics. JOURNAL OF OCEAN ENGINEERING AND SCIENCE, 7 (2022) 565-577.
[20] Tianyong Han*, Zhao Li, Kaibo Shi, Guo-Cheng Wu. Bifurcation and traveling wave solutions of stochastic Manakov model with multiplicative white noise in birefringent fibers. CHAOS, SOLITONS AND FRACTALS, 163 (2022) 112548.
[21] Yao-Lin Jiang*, Cheng Chen. Lie group analysis and dynamical behavior for classical Boussinesq-Burgers system. NONLINEAR ANALYSIS: REAL WORLD APPLICATIONS, 47 (2019) 385-397.
[22] Deniu Yang*. Bright and dark solitons and periodic wave solutions for the
Gerdjikov-Ivanov equation in nonlinear fiber optics. JOURNAL OF MATHEMATICAL ANALYSIS AND APPLICATIONS, 519 (2023) 126764.
[23] Sadaf Shaheen*, Sirajul Haq, Abdul Ghafoor. A meshfree technique for the numerical solutions of nonlinear Fornberg-Whitham and Degasperis-Procesi
equations with their modified forms. COMPUTATIONAL AND APPLIED MATHEMATICS, 41 (2022) 183.
[24] Neng Zhu, Chaohong Pan, Zhengrong Liu*. Two kinds of important bifurcation phenomena of nonlinear waves in a generalized Novikov-Veselov equation. NONLINEAR DYNAMICS, 83 (2016) 1311-1324.
[25] S. Saha Ray*. New Soliton and Periodic Wave Solutions to the Fractional DGH Equation Describing Water Waves in a Shallow Regime. QUALITATIVE THEORY OF DYNAMICAL SYSTEMS, 21 (2022) 151.
[26] Zongguang LI, Rui LIU*. BLOW-UP SOLUTIONS FOR A CASE OF b-FAMILY EQUATIONS. ACTA MATHEMATICA SCIENTIA, 40 (2020) 910-920.
[27] Zengji Du*, Ji Li, Xiaowan Li. The existence of solitary wave solutions of delayed Camassa-Holm equation via a geometric approach. JOURNAL OF FUNCTIONAL ANALYSIS, 275 (2018) 988-1007.
[28] Huiyang Zhang, Yonghui Xia*. Persistence of kink and anti-kink wave solutions for the perturbed double sine-Gordon equation. APPLIED MATHEMATICS LETTERS, 141 (2023) 108616.
[29] H. I. Abdel-Gawad*. Characteristics of velocity, bubble’s radius, and pressure in liquid and gas bubble mixture. PHYSICS OF FLUIDS, 36 (2024) 022125.
[30] Xiaofeng Wang*. An energy-preserving finite difference scheme with
fourth-order accuracy for the generalized Camassa-Holm equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 119 (2023) 107121.
[31] Gao-Qing Meng*, Yu-Song Pan, Hao-feng Tan, Xi-Yang Xie. Analytic solutions for the (2+1)-dimensional generalized sine-Gordon equations in nonlinear optics. COMPUTERS AND MATHEMATICS WITH APPLICATION, 76 (2018) 1535-1543.
[32] Jiaopeng Yang, Zongguang Li, Zhengrong Liu*. The Existence and Bifurcation of Peakon and Anti-Peakon to the n-Degree b-Equation. INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS, 28 (2018) 1850014.
[33] Wenjing Zhu, Yonghui Xia*, Yuzhen Bai. Traveling wave solutions of the complex Ginzburg-Landau equation with Kerr law nonlinearity. APPLIED MATHEMATICS AND COMPUTATION, 382 (2020) 125342.
[34] Yaning Tang*, Qing Zhang, Bingchang Zhou, Yan Wang, Yetong Zhang. General high-order rational solutions and their dynamics in the (3+1)-dimensional Jimbo-Miwa equation. NONLINEAR DYNAMICS, 109 (2022) 2029-2040.
[35] Evgenii G. Ekomasov, Azamat M. Gumerov*, Ramil R. Murtazin. Interaction of sine-Gordon solitons in the model with attracting impurities. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 40 (2017) 6178-6186.
六、候选人曾获奖励及人才称号情况
获奖时间 |
获奖项目名称 |
奖项名称 |
奖励等级及排名 |
授奖单位 |
2013.3.22 |
非线性波方程精确解研究和动力系统方法 |
云南省自然科学奖 |
二等奖 排名第一 |
云南省人民政府 |
2023.6.28 |
若干非线性发展方程的行波解分支,周期波的极限形式和精确解研究 |
云南省自然科学奖 |
三等奖 排名第一 |
云南省人民政府 |
2016.1 |
云南省中青年学术和技术带头人 |
云南省高层次人才 |
排名第一 |
云南省人民政府 |
2016.8 |
云南省有突出贡献优秀专业人才 |
云南省高层次人才 |
三等奖 排名第一 |
云南省人民政府 |
2011.10.27 |
享受云南省政府特殊津贴人员 |
云南省高层次人才 |
排名第一 |
云南省人民政府 |
七、公示时间
2024年7月15日至2024年7月19日。在公示期内,对公示内容有异议的,可向红河学院科学技术处提出。提出异议者,须采取书面形式,写明提出异议的事实依据、个人真实姓名、工作单位、地址邮编和联系方式等。凡匿名异议、超出期限异议的不予受理。
联系人:赖文瑛 龚吉惠
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通讯地址:云南红河蒙自东郊
红河学院科学技术处
2024年7月15日