個人簡介
馬永紅,男,山西河曲人,博士,教授,博士生導師。
教育背景
2005年9月―2010年7月于大連理工大學物理系理論物理專業攻讀博士學位;
2011年1月―2013年10月于大連理工大學光學工程做博士後;
2013年9月―2014年8月于中國科學技術大學量子信息重點實驗室做訪問學者;
2016年2月―2017年2月于美國斯蒂文斯理工學院做訪問學者。
工作經曆
2010年7月―2013年5月 伟德投注官网下载講師;
2013年5月―2016年11月 伟德投注官网下载副教授;
2016年11月―至今 伟德投注官网下载教授。
講授課程
講授本科生課程《大學物理》、《數學物理方法》和研究生課程《高等量子力學》、《量子光學》。
研究方向
1.量子信息和量子光學方面的理論研究:(1)固态系統中的自旋壓縮;(2)固态系統中自旋子的宏觀糾纏;(3)量子混沌。
2.光學功能材料的實驗研究:(1)稀土發光材料,包括稀土玻璃陶瓷的制備和稀土玻璃陶瓷發光性質的調控;(2)選擇性光吸收材料納米晶稀土硼化物的制備方法以及鎢青銅材料的制備條件及工藝。
科研項目
(1)主持國家自然科學基金項目:“馬爾可夫和非馬爾可夫環境下矽空位色心中的自旋壓縮和宏觀糾纏”,項目編号:No. 12265022,2023年1月——2026年12月;
(2)主持内蒙古自然科學基金項目:“非馬爾可夫環境下固态系統中的宏觀糾纏和自旋壓縮”項目編号:2021MS01012,2021年1月-2023年12月;
(3)主持國家自然科學基金項目:“NV色心系統中的自旋壓縮和宏觀糾纏的理論研究”,項目編号:No. 11664029,2017年1月——2020年12月;
(4)主持内蒙傑出青年基金項目:“利用金剛石納米結構中氮-空位中心産生自旋壓縮和宏觀糾纏”項目編号:2017JQ08,2017年1月-2019年12月;
(5)主持國家自然科學基金項目:“微納米機械振子中二次耦合問題的理論研究”,項目編号:No. 11305085,2014年1月——2016年12月
(6)主持國家自然科學基金項目:“機械振子産生連續變量糾纏的理論研究”,項目編号:No. 11164018,2012年1月——2015年12月
(7) 主持中國博士後科學基金項目:“産生多體連續變量糾纏的理論研究”,項目編号:No. 2011M500808,2011年10月——2013年1月
(8)主持教育部科學技術研究重點項目:“利用宏觀量子系統産生糾纏的理論研究”,項目編号:No. 212028,2012年1月——2014年12月
(9)主持自治區人才項目:“内蒙古自治區高等學校青年科技英才支持計劃”,項目編号:No. NJYT-13-B13,2014年1月——2015年12月;
(10)主持伟德投注官网下载創新基金-青年學術骨幹培養專項:“光力二次耦合中的糾纏和光子阻塞效應”,項目編号:No.2014QNGG04,2014年1月——2016年12月。
榮譽獎勵
(1)2017年内蒙古自治區“草原英才”工程青年創新人才;
(2)2014年内蒙古教育廳青年科技英才;
(3)2019年自治區“新世紀321人才工程”一層次。
(4)2022年包頭市“鹿城英才”。
代表性論文
1. Yong-Hong Ma*, Rong Zhao, Xing-Wang Hou, Jia-Wei Liu, Ming-Xin Li and Xinyu Zhao, Chaos generation in Opto-mechanical coupling system assisted by two-level atoms, Annalen der Physik 535,2200470(2023)
2. Yong-Hong Ma*, Xing-Wang Hou, Rong Zhao, Ming-Xin Li and Xinyu Zhao, Chaos generated in a semiconductor microcavity, Physical Review E 107, 024220 (2023)
3. Ying Li, Jia Liu, Xiwei Qi, Aihua Mao, Yong-Hong Ma*(通訊作者), Photoluminescence and transmittance of Sm3+-doped Sr3Al2O6 glasses synthesized by an aerodynamic levitation furnace, Ceramics International, 49, 7080-7084 (2023)
4. Leibo Deng, Zhe Fu, Wenwei Lu, Gao, Linxing, Hao Li, Yongsheng Du, Hua Chen, Ming Zhao, Jianli He, Yonghong Ma*(通訊作者), P2O5/ZrO2/TiO(2 ) codoped transparent cordierite glass ceramics: Stability, crystallization and light transmittance, Optical Materials, 138, 113661 (2023).
5. Jia Liu, Xiao Kun Ji, Miao Sun, Feng Chi, Luo Meng Chao, Yong Hong Ma, Linear photogalvanic effects in Janus monolayer MoSSe with intrinsic defects, Optics and Laser Technology, 159, 108946, (2023)
6. Jia Liu, Yonghong Ma, Feng Chi, Luo Meng Chao, JinYan Niu, Linear photogalvanic effects in Janus monolayer MoSSe with intrinsic defects, Optics Express, 31, 12026, (2023)
7. Leibo Deng, Bin Yao, Wenwei Lu, Mingxing Zhang, Hao Li, Hua Chen, Ming Zhao, Yongsheng Du, Meirong Zhang, Yonghong Ma*(通訊作者), Wencai Wang, Effect of SiO2/Al2O3 Ratio on the Crystallization and Heavy Metal Immobilization of Glass Ceramics Derived from Stainless Steel Slag, Journal of Non-Crystalline Solids, 593, 121770, (2022)
8. Luomeng Chao, Changwei Sun, Jiaxin Li, Miao Sun, Jia Liu, Yonghong Ma*(通訊作者), Influence of size and shape on optical properties of cesium tungsten bronze: An experimental and theoretical approach, Ceramics International, 48, 6436-6442, (2022)
9. Chao, Luomeng, Changwei Sun, Jiaxin Li, Miao Sun, Jia Liu, and Yonghong Ma*(通訊作者). Transparent Heat Shielding Properties of Core-Shell Structured Nanocrystalline CsxWO3@TiO2, Nanomaterials 12, 2806 (2022)
10. XinYu Zhao, Yong-Hong Ma*(通訊作者), and Yan Xia, Noise-assisted quantum coherence protection in a hierarchical environment, Physical Review A 105, 042217 (2022)
11. He Jianli, Chen Lin, Li Hao, Niu Jinyan and Yonghong Ma*(通訊作者), Novel 3.1 mu m and enhanced 2.7 mu m emissions in Er3+ doped fluorotellurite glasses ceramic, Journal of alloys and compounds, 895, 162606 (2022)
12. Yong-Hong Ma, Yuan Xu, Quan-Zhen Ding, and Yu-Sui Chen, Preparation of spin squeezed state in SiV centerscoupled by diamond waveguide,Chinese Physics B, 2021, 30 (10): 100311
13. Luomeng Chao, Changwei Sun, Jianyong Dou, Jiaxin Li, Jia Liu, Yonghong Ma*(通訊作者)and Lihua Xiao, Tunable Transparency and NIR-Shielding Properties of Nanocrystalline Sodium Tungsten Bronzes, Nanomaterials,11, 731 (2021)
14. Quanzhen Ding Peng Zhao, Yonghong Ma*(通訊作者)and Yusui Chen,Impact of the central frequency of environment on non‑Markovian dynamics in piezoelectric optomechanical devices,Scientific Reports 11,1814 (2021)
15. Leibo Deng, Wenwei Lu, Zhen Zhang, Zhe Fu, Hao Li, Hua Chen, Yongsheng Du, YongHong Ma*(通訊作者) and Wencai Wang, Crystallization behavior and structure of CaO–MgO–Al2O3–SiO2 glass ceramics prepared from Cr-bearing slag, Materials Chemistry and Physics 261, 124249 (2021)
16. E Wu, Jia Liu, Luo-Meng Chao, Jun Qiao, Jin-Yan Niu, Jian-Li He, Yong Zhang and YongHong Ma*(通訊作者),Generation of quadripartite continuous-variable entanglement in two coupled opto-mechanical systems, Laser Physics 30, 065205 (2020)
17. Yong-Hong Ma, Quan-Zhen Ding and E Wu, Entanglement of two nitrogen-vacancy ensembles via a nanotube, Physical Review A 101, 022311 (2020)
18. Yong-Hong Ma, Xin-Ru Liu, Jia Liu, Jin-Yan Niu, Yong Zhang, E Wu and Quan-Zhen Ding, Steady-State Spin Squeezing Generated in Diamond Nanostructures Coupled to Carbon Nanotubes International Journal of Theoretical Physics (2020) 59:1306–1314
19. Yong-Hong Ma, Quan-Zhen Ding and Ting Yu, Persistent spin squeezing of a dissipative one-axis twisting model embedded in a general thermal environment, Physical Review A 101, 022327 (2020)
20. Leibo Deng, Shuo Wang, Zhen Zhang, Zhenhua Li, Ruidong Jia, Fei Yun, Hao Li, YongHong Ma*(通訊作者) and Wencai Wang, The viscosity and conductivity of the molten glass and crystallization behavior of the glass ceramics derived from stainless steel slag, Materials Chemistry and Physics 251, 123159 (2020)
21. YongHong Ma,Dan Yang Li,E Wu,Enhanced Entanglement in Optomechanical Cavity with a Nonlinear Material χ (3),Int J Theor Phys, 57(1)219-225(2018)
22. Liu Jia, Zhou Yun, Feng Chi and Yong-Hong Ma, Effect of spin heat accumulation on the heat generation in a quantum dot, J Low Temp Phy 190, 67-77 (2018).
23. Yong-Hong Ma and E Wu, Resonance fluorescence and quantuminterference of a single NV center, Annals of Physics 386 165 (2017)
24. E Wu, DanYang Li and YongHong Ma*(通訊作者), Enhanced Entanglement Between Two Mechanical Resonators in Two Optomechanical Cavities with an Atomic Medium, Int J Theor Phys, 56, 1665 (2017)
25. Han Xiang-Gang, HaiHong Meng, Ma Yong-Hong and Shunli Ouyang, The effect of asymmetry of the coil block on self-assembly in ABC coil-rod-coil triblock copolymers, Condensed Matter Physics, Vol: 20 No: 4 : 43601 (2017)
26. Yong-Hong Ma, Jie song and E Wu, Bistability and steady-state spin squeezing in diamond nanostructures controlled by a nanomechanical resonator, Annals of Physics 369,36 (2016)
27. Yong-Hong Ma, Feng-Zhi Li, Xiang-Gang Han and E Wu, Generation of Steady-State Entanglement in Quadratically Coupled Optomechanical System Assisted by Two-Level Atoms, Int J Theor Phys, 55, 2386 (2016)
28. E Wu, FengZhi Li and Yong-Hong Ma*(通訊作者), Optomechanical entanglement of a macroscopic oscillator by quantum feedback, International Journal of Quantum Information, 5: 1650022 (2016)
29. Yong-Hong Ma, Entangling two spin ensembles in diamond nanostructures via a superconducting flux qubit, Laser Physics Letters, 12, 075201 (2015).
30. Yong-Hong Ma, E Wu, Macroscopic Entanglement of Remote Optomechanical Systems Assisted by Parametric Interactions, Int J Theor Phys, 54, 1334–1341 (2015)
31. Yong-Hong Ma Steady-state spin squeezing generation in diamond nanostructures, Physical Review B 89, 144113 (2014)
32. Han Xiang-Gang and Ma Yong-Hong, Self-consistent field theoretic simulations of amphiphilic triblock copolymer solutions: Polymer concentration and chain length effects, Condensed Matter Physics, Vol: 17 No: 2 : 23604 (2014)
33. Han Xiang-Gang and Ma Yong-Hong, Effect of polymer concentration and length of hydrophobic end block on the unimer-micelle transition broadness in amphiphilic ABA symmetric triblock copolymer solutions, Condensed Matter Physics, Vol: 16 No:3 : 33601 (2013)
34. Yong-Hong Ma, and Ling Zhou*, Electromagnetically induced transparency and quadripartite macroscopic entanglement generated in a ring cavity, Chin. Phys. B Vol. 22, No. 2 024204 (2013)
35. Yong-Hong Ma, Genuine quadripartite macroscopic entanglement generated in two-mode optomechanical systems, Appl. Phys. B, 112, 485-489 (2013)
36. Yong-Hong Ma, Jia-Liu, and Jin-Yan Niu, Control of spontaneous emission in a four-level system, Journal of Modern Optics 59, 771-777 (2012)
37. Yong-Hong Ma, and Ling Zhou, Enhanced entanglement between a movable mirror and a cavity field assisted by two-level atoms, J. Appl. Phys. 111, 103109 (2012)
38. Han Xiang-Gang and Ma Yong-Hong, Effect of distribution of stickers along backbone on temperature-dependent structural properties in associative polymer solutions, Condensed Matter Physics, Vol: 15 No: 3 : 33602 (2012)
39. Wu E, Ma Yong-Hong*(通訊作者), and Han Xiang-Gang, Observation of electromagnetically induced transparency in a ring cavity, Central European Journal of Physics Vol: 10 No: 5: 1216-1220 (2012)
40. Yong-Hong Ma, E Wu, Entanglement generated in a nanomechanical oscillator system , Journal of Modern Optic 58, 839-844 (2011).
41. Yong-Hong Ma. Entanglement Generated in a Semiconductor Microcavity, Int. J. Theor. Phys 50, 3205-3211 (2011)
42.Yong-Hong Ma, and E Wu, Generation of continuous-variable entanglement in a three-level system, Journal of Experimental and Theoretical Physics Letters, 93, 233-237 (2011)
43. Yong-Hong Ma, Generation of continuous-variable entanglement in a three-level system coupled with a parametric oscillator, Physica Scripta, 83, 025403 (2011)
44. Han XiangGang and Ma Yong-Hong Effects of polymer concentration and chain length on aggregation in physically associating polymer solutions, Condensed Matter Physics, 2011, vol. 14, No. 4, p. 43601:1-11
45. Qing-Xia Mu, Yong-Hong Ma, and Ling Zhou, Scheme to generate three-mode continuous-variable entanglement in cavity quantum electrodynamics, Optics Communications 284, 1090-1093 (2011)
46.Yong-Hong Ma, and E Wu, Generation of two-photon correlation in a four-level system, Journal of Experimental and Theoretical Physics Letters, 92, 804-808 (2010)
47. Xin-Yu Zhao, Yong-Hong Ma, and Ling Zhou, Generation of genuine tripartite macroscopic entanglement in Y-type system, Int. J. Theor. Phys. 49, 2841-2851 (2010)
48. Qing-Xia Mu, Yong-Hong Ma, and Ling Zhou, Output squeezing and entanglement generation from a single atom with respect to a low-Q cavity, Phys Rev A 81, 024301 (2010)
49. Yong-Hong Ma, Guo-Hui Yang, and Ling Zhou, Greenberger–Horne–Zeilinger state generation among remote nodes, J. Opt. Soc. Am. B 26, 4l (2009)
50. Yong-Hong Ma, Xin-Yu Zhao, and Ling Zhou, Bright entanglement generated in a four-level laser, Journal of Modern Optic 56, 1607–1612 (2009)
51. Yong-Hong Ma, Qing-Xia Mu, and Ling Zhou, Tunable continuous-variable steady entanglement via an atom in a microcavity, Physics Letters A 373, 2025–2030 (2009). 2.28
52. Qing-Xia Mu, Yong-Hong Ma, and Ling Zhou, Generation of two-mode entangled coherent states via a cavity QED system, Journal of Physics A 42, 225304 (2009)
53. Qing-Xia Mu, Yong-Hong Ma, and Ling Zhou, Entanglement generation in a two-mode single-atom laser, European Physical Journal D 51, 375-379 (2009)
54. Xin-Yu Zhao, Yong-Hong Ma, and Ling Zhou, Generation of multi-mode-entangled light, Optics Communications 282, 1593–1597 (2009)
55. Yong-Hong Ma, Qing-Xia Mu, and Ling Zhou, Enhanced continuous-variable entanglement by a self-phase-locked type-II optical parameter oscillator with feedback loops, J. Phys. B: At. Mol. Opt. Phys. 41, 215502 (2008)
56. Yong-Hong Ma, Qing-Xia Mu, and Ling Zhou, Entangled photons produced by a three-level atom in free space, Optics Communications 281, 2695–2699 (2008)
57. E Wu, Yong-Hong Ma, Li-Xia Zeng, and Xiao-An Zhang, Continuous Variable remote state preparation with a two-mode squeezed vacuum state, Int. J. Theor. Phys. 47, 1600-1605 (2008)
58. Guo-Hui Yang, Yong-Hong Ma, Di Mei, and Ling Zhou, Entanglement teleportation via a two-qubit heisenberg chain under a nonuniform magnetic field, Int. J. Theor. Phys 47, 1836–1843 (2008)
59. Ling Zhou, Yong-Hong Ma, and Xin-Yu Zhao, Entanglement generation in a double-Λ System, J. Phys. B: At. Mol. Opt. Phys. 41, 215501 (2008)
60. Yong-Hong Ma, Qing-Xia Mu, and Ling Zhou, Quantum correlations between a pair of photons in a Δ-type atom, Int. J. Theor. Phys 46, 3242-324 (2007)
61. Qing-Xia Mu, Yong-Hong Ma, and Ling Zhou, Generating an entangled coherent state of two cavity modes in a three-level Λ-type atomic system, J. Phys. B: At. Mol. Opt. Phys. 40, 3241-3247 (2007)
專著與教材
馬永紅主編《連續變量糾纏和自旋壓縮的研究》,哈爾濱工業大學出版社,2016年4月。