姓 名:陶元红
职 称:教授、硕士生导师
办公室:A4-501-1
办公电话:0571-85070700; 手机:13844397867
mail: taoyuanhong12@126.com,120083@zust.edu.cn
研究方向:量子信息与量子计算;泛函分析及其应用
个人简介:博士,教授,硕士生导师,哈尔滨工业大学基础数学专业博士毕业,首都师范大学数学与统计学院博士后出站。1995年7月至2019年11月在延边大学工作,2020年11月19日至今在浙江科技大学工作。先后在美国圣路易斯华盛顿大学、澳大利亚悉尼科技大学、德国莱比锡Planck研究所研究访问。
主持完成国家自然科学基金项目2项、省部级科研项目1项。曾主持吉林省线上线下混合式一流课程“数学分析”建设,主编高等教育“十二五”应用型规划教材1部。主持和参与完成浙江科技大学教学研究与改革项目3项。发表SCI科研论文50余篇,教研论文13篇(其中核心2篇),获吉林省自然科学学术成果奖、吉林省高等教育学会优秀高教科研成果奖和吉林省第十届教育科学优秀成果奖各1项。曾获全国高校数学微课程教学设计竞赛吉林省赛区竞赛一等奖。2008年开始指导硕士研究生,先后在延边大学和浙江科技大学招收和培养的毕业研究生30余名。
学术研究:
l 科研论文(部分)
[1] Yuan-Hong Tao, Qing Yu, Liu Sun, Wei-Ning Li and Yan-Wei Zhou*. Characterization of quantum coherence by lp -norm and skew information in MUBs. Journal of Physics A: Mathematical and Theoretical. 2026, 59(9): 095301.
[2] Wei-Ning Li, Ming Fang, Yuan-Hong Tao*, Liu Sun, Shao-Ming Fei. Wave-Particle-Mixedness Relationships Based on lp -norm Coherence. Annalen der Physik. 2026, 538: e00515, 1-11.
[3] Ning Wang, Jin-Cheng Yue, Hui Zhang, Si-Qi Guo, Shu-Li Li, Yuan-Hong Tao*, Yanhui Liu*, Tian Cui*.Achieving decoupled thermal and electrical transport in BaLiX (X = P, As, Sb, Bi) Zintl phases compounds via anion engineering. Materials Today Physics. 2026, 60: 101974, 2542-5293.
[4] Yan-Sa Lu, Zhi-Hua Chen* and Yuan-Hong Tao*. Robust Certification of Entanglement Structures in Noisy Quantum Systems: Device-Independent and Semi-Device-Independent Approaches. Advanced Quantum Technologies. 2025, 8, e00347: 1-15.
[5] Lin Zhang*, Bing Xie, Yuan-Hong Tao. Bargmann-invariant framework for local unitary equivalence and entanglement. Physical Review A. 2025, 112(5): 052426.
[6] Yu-Hang Liu, Yuan-Hong Tao*, Jing-Run Lan and Shao-Ming Fei. Quantum Algorithms for Matrix Operations of Row Addition, Row Swapping, Trace Calculation and Transpose. Quantum Information & Computation. 2025, 25: 568-585.
[7] Yun-Ze Wen, Yuan-Hong Tao*, Hao-Yun Tang. Geopolitical risk, digital transformation, and corporate outward foreign direct investment. Finance Research Letters. 2024, 69:106171.
[8] Ruo-Nan Li, Yuan-Hong Tao*, Jin-Min Liang, Shu-Hui Wu and Shao-Ming Fei. Full quantum eigensolvers based on variance. Physica Scripta. 2024, 99(9): 095207.
[9] An-Ting Zhao, Ming Fang* and Yuan-Hong Tao. Mutually unbiased coherence of Bell Diagonal States. Physica Scripta. 2024, 99(8): 085009.
[10] Ming-Jing Zhao*, Yuan-Hong Tao. The uncertainty of quantum states with respect to the projective measurement. Physica Scripta. 2024, 99(6): 065125.
[11] Ya-Ru Bai, Yuan-Hong Tao*, Shu-Hui Wu, Hui Zhang and Shao-Ming Fei. Quantum differential privacy under noise channels. Physica Scripta. 2024, 99(3): 035119.
[12] Xu-Jue Che, Yuan-Hong Tao*, Yi-Hao Sheng, Shu-Hui Wu, Shao-Ming Fei. Trade-offs between coherence and mixedness and their veolution under quantum noise channels. Results in Physics. 2023, 52: 106794.
[13] Liu Sun, Yuan-Hong Tao*, Shao-Ming Fei. Complementary Relations between lp-norm Coherence and Mixedness of Quantum States. Laser Phys. 2023, 33: 015204.
[14] Zhi-Xiang Jin, Yuan-Hong Tao, Yao-Ting Gui, Shao-Ming Fei*, Xian-Qing Li-Jost, Cong-Feng Qiao*. Concurrence triangle induced genuine multipartite entanglement measure. Results in Physics. 2023, 44: 106155.
[15] Yuan-Hong Tao*, Kai Zheng, Zhi-Xiang Jin, Zhi-Xiang Jin, Shao-Ming Fei. Tighter Monogamy Relations for Concurrence and Negativity in Multiqubit Systems. Mathematics. 2023, 11: 1159.
[16] Yuan-Hong Tao, Xin-Lei Yong, Ya-Ru Bai, Dan-Ni Xu and Shu-Hui Wu*. Unextendible Entangled Bases With a Fixed Schmidt Number Based on Generalized Weighing Matrices. Front. Phys. 2022,10: 896164.
[17] Liu Sun, Jiang-Peng Li, Yuan-Hong Tao*, Lin-Song Li. Quantifying Quantum Non-Markovianity Based on Two Kinds of Coherence Measures. International Journal of Theoretical Physics. 2022, 61:134.
[18] Yuan-Hong Tao, Xin-Lei Yong, Yi-Fan Han, Shu-Hui Wu*, Cai-Hong Wang. Mutually Unbiased Property of Special Entangled Bases. International Journal of Theoretical Physics. 2021, 60, 2653–2661.
[19] Jian Zhang, Yi-Hao Sheng, Yuan-Hong Tao*, Shao-Ming Fei. Ordering states of l1 norm and α -affinity of coherence. Quantum Information Processing. 2021, 20:98.
[20] Yi-Hao Sheng, Jian Zhang, Yuan-Hong Tao*, Shao-Ming Fei. Applications of quantum coherence via skew information under mutually unbiased bases. Quantum Information Processing. 2021, 20: 82.
[21] Ming-Yang Shen, Shao-Ming Fei, Yi-Hao Sheng, Yuan-Hong Tao*, Yao-Kun Wang. Quantum Coherence of Qubit States with respect to Mutually Unbiased Bases. International Journal of Theoretical Physics. 2020, 59:3908–3914.
[22] Yi-Yang Song, Gui-Jun Zhang, Ling-Shan Xu, Yuan-Hong Tao*. Construction of Mutually Unbiased Bases Using Mutually Orthogonal Latin Squares. International Journal of Theoretical Physics. 2020, 59(6):1777-1787.
[23] Yi-Yang Song, Yuan-Hong Tao*. Notes on l2 Norm of Coherence. International Journal of Theoretical Physics. 2020, 59: 851–860.
[24] Xin-Lei Yong, Yi-Yang Song, Yuan-Hong Tao*. New constructions of unextendible entangled bases with fixed Schmidt number. Quantum Information Processing. 2019, 18: 337.
[25] Yao-Kun Wang, Li-Zhu Ge, Yuan-Hong Tao*. Quantum coherence in mutually unbiased bases. Quantum Information Processing. 2019, 18:164.
[26] Lin-Song Li, Yuan-Hong Tao*, Hua Nan, Hui Xu. Super-quantum correlation for SU(2) invariant state in 4⊗2 system. Quantum Information Processing. 2018, 17:86.
[27] Xiang-Yu Zhu, Yuan-Hong Tao*. Conventional Bell Basis in PT -symmetric Quantum Theory. International Journal of Theoretical Physics. 2018, 57: 3839–3849.
[28] Yi-Yang Song, Gui-Jun Zhang, Ling-Shan Xu, Yuan-Hong Tao*. Mutually Unbiased Unextendible Maximally Entangled Bases in Cd⊗Cd+1. International Journal of Theoretical Physics. 2018, 57(12): 3785-3794.
[29] Ling-Shan Xu, Gui-Jun Zhang, Yi-Yang Song, Yuan-Hong Tao*. Mutually Unbiased Property of Maximally Entangled Basesand Product Bases in Cd⊗Cd. International Journal of Theoretical Physics. 2018. 57: 3463–3472.
[30] Yi-Fan Han, Gui-Jun Zhang, Xin-Lei Yong, Ling-Shan Xu, Yuan-Hong Tao*. Mutually unbiased special entangled bases with Schmidt number 2 in C3⊗C4k. Quantum Information Processing. 2018, 17: 58.
[31] Gui-Jun Zhang, Yuan-Hong Tao*, Yi-Fan Han, Xin-Lei Yong, Shao-Ming Fei. Unextendible Maximally Entangled Bases in Cpd⊗Cqd. Quantum Information Processing. 2018, 17: 318.
[32] Gui-Jun Zhang, Yuan-Hong Tao*, Yi-Fan Han, Xin-Lei Yong, Shao-Ming Fei. Constructions of Unextendible Maximally Entangled Bases in Cd⊗Cd’. Scientific Reports. 2018, 8: 3193.
l 科研项目(主持)
1. PT对称量子理论中的若干数学问题,国家自然科学基金项目11761073,2018.01–2021.12
2. 量子关联理论及其在量子隐形传态中的应用,国家自然科学基金项目11361065,2014.01–2017.12
3. 量子纠缠可分离判据的数学刻画,吉林省自然科学基金项目201215239,2012.01—2014.12
l 科研成果奖
1. 吉林省自然科学学术成果奖,三等奖,证书编号:20153004. 量子可分离判据及其在量子隐形传态中的应用, 2015年10月
教学研究:
l 教研论文(核心)
1.陶元红. MOOC环境下我国大学数学教育应对策略. 黑龙江高教研究. 2016, 4:155-157.
2.陶元红, 张林, 罗来珍. 地方本科院校公共数学类课程的教学改革与实践. 教育探索. 2016, 9: 89-91.
l 教研项目
1. 浙江科技大学教学研究与改革项目:新工科背景下数据科学与大数据专业“数学分析”课程建设与改革,2021,(1/3)
2. 浙江省国际化线下一流本科课程“线性代数B”的教学研究与改革,2021,
(2/3)
3. 浙江科技大学重点教学研究与改革项目:疫情背景下一流全英文课程建设的探索与实践---以“微积分1”课程为例,2021,(3/6)
4. 吉林省高等教育学会高教科研课题:“互联网+”时代慕课环境下大学数学教学改革研究, JGJX2017D14, 2017,(1/5)
5. 延边大学教育教学研究课题: 基于SPOC的数学专业课程的教学改革与实践---以复变函数课程为例, 2016,(1/5)
l 课程建设项目
1. 浙江科技大学线上线下混合式一流本科课程建设项目:数学分析2,2022,(1/5)
2. 延边大学优秀课程“复变函数”建设项目,2018,(1/6)
3. 延边大学“数学分析”线上线下混合式“金课”建设项目,2020,(1/6)
l 教材建设
1. 赖红,刘紫豪,陶元红等.量子张量网络机器学习.科学出版社,2022,11.
2. 李文江,陶元红等.复变函数与积分变换,高等教育“十二五”应用型规划教材. 数学系列. 武汉大学出版社,2016, 4.
l 荣誉
1. 吉林省高等教育学会第十四次优秀高教科研成果奖,二等奖,MOOC环境下我国大学数学教育应对策略,2016年11月
2. 吉林省第十届教育科学优秀成果奖,三等奖,地方本科院校公共数学类课程的教学改革与实践,2017年6月
3. 2017全国高校数学微课程教学设计竞赛,吉林省赛区竞赛一等奖,东北赛区竞赛二等奖. 2017年6月
