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王洪福

(延邊大學副校長)

鎖定
王洪福,1981年出生,延邊大學理學院物理系博士生導師,三級教授,吉林省突出貢獻獎勵人才,國務院政府特殊津貼專家,國家優秀青年科學基金獲得者,吉林省傑出青年科學基金獲得者,長白山學者,“圖們江學者”特聘教授。東北師範大學兼職教授、兼職博士生導師,吉林省量子物理基礎學科研究中心主任,吉林省量子計算與量子信息重點實驗室主任,吉林省量子計算與量子信息科研創新團隊帶頭人。 [1] 
主要研究方向:量子物理學、量子光學、量子計算與量子信息。 [1] 
現任延邊大學副校長。 [2] 
中文名
王洪福
畢業院校
延邊大學 [1] 
哈爾濱工業大學 [1] 
學位/學歷
博士研究生
專業方向
量子物理學、量子光學、量子計算與量子信息
職    稱
教授

目錄

  1. 1 個人經歷
  2. 教育經歷
  3. 工作經歷
  4. 學術兼職
  5. 其他兼職
  1. 2 研究方向
  2. 3 科研成果
  3. 申請專利
  4. 科研項目
  5. 科研論文
  1. 4 獲獎記錄
  2. 學術榮譽
  3. 科研獲獎

王洪福個人經歷

王洪福教育經歷

(1)2000.09--2007.07,延邊大學理學院物理系,本科/學士
(2)2004.09--2007.07,延邊大學理學院物理系,研究生/碩士
(3)2007.09--2010.05,哈爾濱工業大學理學院物理系,研究生/博士
(4)2011.10--2013.12,大連理工大學,博士後研究員
(5)2015.09--2016.07,東北師範大學量子科學中心,中組部、教育部 “西部之光”訪問學者
(6)2016.07--2016.10,澳大利亞悉尼科技大學(UTS),高級訪問學者
(7)2019.08.12--2019.08.25,新加坡南洋理工大學(NTU),骨幹教師知識交流與能力提升 [1] 

王洪福工作經歷

(1)2010.12--2011.08,延邊大學理學院物理系,講師/碩導
(2)2011.09--2013.08,延邊大學理學院物理系,副教授
(3)2013.09--至今,延邊大學理學院物理系,教授
(4)2013.07--2015.08,延邊大學理學院物理系,系主任
(5)2015.11--至今,延邊大學量子調控研究中心,主任
(6)2016.03--至今,延邊大學校學術委員會,委員
(7)2017.11--至今,吉林省量子計算與量子信息重點實驗室,主任
(8)2020.05--2022.07,延邊大學理學院,副院長
(9)2020.08--2022.03,延邊大學物理學科,一級學科主任
(10)2020.08--2022.03,吉林省特色高水平學科(物理學科),首席負責人
(11)2021.09--2022.01,中央黨校(國家行政學院)中青年幹部培訓班學習
(12)2021.12--至今,延邊大學 副校長
(13)2024.01--至今,吉林省量子物理基礎學科研究中心,主任 [1] 

王洪福學術兼職

(1)2023.07--至今,中國光學學會光量子科學與技術專業委員會,委員
(2)2019.07--2023.07,吉林省物理學會,常務理事-副理事長
(3)2019.10--至今,吉林省光學學會,常務理事;量子光學專業委員會副主任
(4)2021.09--至今,吉林省高等學校本科教學指導委員會物理學類專業教學指導委員會,委員
(5)2015.07--至今,全國量子物理青年學者研討會組織委員會,委員
(6)2018.05--2022.05,教育部高等學校物理學類專業教學指導委員會東北地區委員會,委員
(7)2020.03--至今,國際期刊 Quantum Reports 編委
(8)國家自然科學基金通訊評審專家、會評專家
(9)Nature、Physical Review 系列期刊、Photonics Research、New Journal of Physics、Optics Letters等學術期刊審稿人 [1] 

王洪福其他兼職

(1)政協吉林省第十三屆委員會,委員
(2)十二屆吉林省青聯委員;十三屆吉林省青聯常委,副主席 [1] 

王洪福研究方向

目前主要從事量子拓撲絕緣體、拓撲光子學與拓撲量子計算,以及基於腔光力系統的宏觀振子量子基態冷卻、光力誘導透明、機械壓縮與糾纏製備、快慢光調製與操控等方面的研究工作。

王洪福科研成果

王洪福申請專利

專利名稱:遠距離多節點間分佈式量子中繼器;專利號:ZL 2016 2 1273643. 4;證書號第 6382502 號。 [1] 

王洪福科研項目

(1)腔光機械陣列系統的多體量子效應及拓撲性質研究,2021.01—2024.12,國家自然科學基金面上項目;
(2)量子信息學,2019.01—2021.12,國家自然科學基金優秀青年科學基金項目;
(3)噪聲環境下腔量子電動力學量子計算與量子相干操控的理論研究,2015.01—2018.12,國家自然科學基金地區基金,62 萬元;
(4)基於半導體量子點-光學微腔耦合系統量子信息處理的研究,2013.01—2016.12,國家自然科學基金地區基金;
(5)量子算法及其在量子信息處理中的應用研究,2012.01—2012.12,國家自然科學基金專項基金;
(6)半導體量子點量子計算理論研究,2012.11—2013.10,中國博士後科學基金面上項目;
(7)基於半導體量子點量子計算與量子信息處理的研究,2013.01—2014.12,吉林省教育廳“首批吉林省高校科研春苗人才”項目;
(8)基於腔QED和電路QED量子信息處理的研究,2014.01—2015.12,吉林省教育廳第三批“吉林省高校新世紀科學技術優秀人才”計劃專項項目;
(9)基於固態系統量子計算與量子信息處理的研究,2011.07—2014.07,延邊大學第三層次引進人才項目 [1] 

王洪福科研論文

在npj Quantum Information、Physical Review Applied/Research/A/B、Photonics Research、New Journal of Physics、Optics Letters、Science China-Physics Mechanics & Astronomy、Optics Express、Advanced Quantum Technologies、Fundamental Research 等國內外著名學術期刊上發表SCI收錄論文240餘篇,被諾貝爾物理學獎獲得者、美國物理學會和光學學會會士等SCI引用2970餘次,H-index因子為30,相關研究工作被“美國世界科技研究新聞資訊網”、“Advanced Science News (ASN China)”等科學網媒體報導。代表性論文如下:
1. Lu Qi, Yu Yan, Yan Xing, Xue-Dong Zhao, Shutian Liu, Wen-Xue Cui, Xue Han, Shou Zhang, and Hong-Fu Wang*. Topological router induced via long-range hopping in a Su-Schrieffer-Heeger chain. Physical Review Research. 2021, 3(2): 023037.
2. Cheng-Hua Bai, Dong-Yang Wang, Lu Qi, Yan Xing, and Hong-Fu Wang*. Cavity optomechanical system--a powerful platform for investigating quantum effects. Fundamental Research. 2021, 1(2): 217-219 (Invited Perspectives).
3. Lu Qi, Yan Xing, Xue-Dong Zhao, Shutian Liu, Shou Zhang, Shi Hu, and Hong-Fu Wang*. Topological beam splitter via defect-induced edge channel in Rice-Mele model. Physical Review B 2021, 103(8): 085129.
4. Cheng-Hua Bai, Dong-Yang Wang, Shou Zhang, Shutian Liu, and Hong-Fu Wang*. Double-mechanical-oscillator cooling of breaking the restrictions of quantum backaction and frequency ratio via dynamical modulation. Physical Review A. 2021, 103(3) 033508.
5. Ji Cao, Wen-Xue Cui, X. X. Yi, and Hong-Fu Wang*. Controllable photon-phonon conversion via the topologically protected edge channel in an optomechanical lattice. Physical Review A 2021, 103(2): 023504.
6. Lu Qi, Guo-Li Wang, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Dissipation-induced topological phase transition and periodic-driving-induced photonic topological state transfer in a small optomechanical lattice. Frontiers of Physics 2021, 16(1): 12503.
7. Lu Qi, Guo-Li Wang, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Robust interface-state laser in non-Hermitian micro-resonator arrays. Physical Review Applied 2020, 13(6): 064016.
8. Dong-Yang Wang, Cheng-Hua Bai, Yan Xing, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Enhanced photon blockade via driving a trapped Lambda-type atom in a hybrid optomechanical system. Physical Review A 2020, 102(4): 043705.
9. Ji Cao, X. X. Yi, and Hong-Fu Wang*.Band structure and exceptional ring in a two-dimensional superconducting circuit lattice. Physical Review A 2020, 102(3): 032619.
10. Dong-Yang Wang, Cheng-Hua Bai, Shutian Liu, Shou Zhang, and Hong-Fu Wang*.Photon blockade in a double-cavity optomechanical system with nonreciprocal coupling. New Journal of Physics 2020, 22(9): 093006.
11. Lu Qi, Guo-Li Wang, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Engineering the topological state transfer and topological beam splitter in an even-sized Su-Schrieffer-Heeger chain. Physical Review A 2020, 102(2): 022404.
12. Li-Na Zheng, Lu Qi, Liu-Yong Cheng, Hong-Fu Wang*, and Shou Zhang. Defect-induced controllable quantum state transfer via topologically protected channel in flux qubit chain. Physical Review A 2020, 102(1): 012606.
13. Lu Qi, Yan Xing, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Topological phase induced by distinguishing parameter regimes in cavity optomechanical system with multiple mechanical resonators. Physical Review A 2020, 101(5): 052325.
14. Cheng-Hua Bai, Dong-Yang Wang, Shou Zhang, Shutian Liu, and Hong-Fu Wang*. Strong mechanical squeezing in a standard optomechanical system by pump modulation. Physical Review A 2020, 101(5): 053836.
15. Dong-Yang Wang, Cheng-Hua Bai, Xue Han, Shutian Liu, Shou Zhang, and Hong-Fu Wang*, Enhanced photon blockade in an optomechanical system with parametric amplification. Optics Letters 2020, 45(9): 2604-2607.
16. Lu Qi, Guo-Li Wang, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Controllable photonic and phononic topological state transfers in a small optomechanical lattice. Optics Letters, 2020, 45(7): 2018-2021.
17. Cheng-Hua Bai, Dong-Yang Wang, Shou Zhang, Shutian Liu, and Hong-Fu Wang*. Engineering of strong mechanical squeezing via the joint effect between Duffing nonlinearity and parametric pump driving. Photonics Research 2019, 7(11): 1229-1239.
18. Lu Qi, Yu Yan, Guo-Li Wang, Shou Zhang, and Hong-Fu Wang*. Bosonic Kitaev phase in a frequency-modulated optomechanical array. Physical Review A 2019, 100(6): 062323.
19. Dong-Yang Wang, Cheng-Hua Bai, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Distinguishing photon blockade in a PT -symmetric optomechanical system. Physical Review A 2019, 99(4): 043818.
20. Xue Han, Dong-Yang Wang, Cheng-Hua Bai, Wen-Xue Cui, Shou Zhang, and Hong-Fu Wang*. Mechanical squeezing beyond resolved sideband and weak-coupling limits with frequency modulation. Physical Review A 2019, 100(3): 033812.
21. Dong-Yang Wang, Cheng-Hua Bai, Shutian Liu, Shou Zhang, and Hong-Fu Wang*. Optomechanical cooling beyond the quantum backaction limit with frequency modulation. Physical Review A 2018, 98(2): 023816.
22. Yan Xing, Lu Qi, Ji Cao, Dong-Yang Wang, Cheng-Hua Bai, Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang, Spontaneous PT-symmetry breaking in non-Hermitian coupled-cavity array, Physical Review A 2017, 96(4): 043810. (PRA Kaleidoscope
23. Qi Guo, Shuqin Zhai, Liu-Yong Cheng, Hong-Fu Wang, and Shou Zhang. Counterfactual quantum cloning without transmitting any physical particles. Physical Review A 2017, 96(5): 052335.
24. Shi-Lei Su, Qi Guo, Hong-Fu Wang, and Shou Zhang. Simplified scheme for entanglement preparation with Rydberg pumping via dissipation. Physical Review A 2015, 92: 022328.
25. Shi-Lei Su, Xiao-Qiang Shao, Hong-Fu Wang, and Shou Zhang. Scheme for entanglement generation in an atom-cavity system via dissipation. Physical Review A2014, 90(5): 054302.
26. Qi Guo, Liu-Yong Cheng, Li Chen, Hong-Fu Wang, and Shou Zhang. Counterfactual distributed controlled-phase gate for quantum-dot spin qubits in double-sided optical microcavities. Physical Review A 2014, 90(4): 042327.
27. Qi Guo, Juan Bai, Liu-Yong Cheng, Xiao-Qiang Shao, Hong-Fu Wang, Shou Zhang. Simplified optical quantum-information processing via weak cross-Kerr nonlinearities. Physical Review A 2011, 83(5):054303
28. Xiao-Qiang Shao, Hong-Fu Wang, Li Chen, Shou Zhang, Yong-Fang Zhao, Kyu-Hwang Yeon. One-step implementation of the 1→3 orbital state quantum cloning machine via quantum Zeno dynamics. Physical Review A 2009, 80(6), 062323
29. Hong-Fu Wang, Shou Zhang. Linear optical generation of multipartite entanglement with conventional photon detectors. Physical Review A 2009, 79(4): 042336.
30. Hong-Fu Wang*, Ai-Dong Zhu, Shou Zhang, and Kyu-Hwang Yeon, Optically controlled phase gate and teleportation of a controlled-NOT gate for spin qubits in quantum dot-microcavity coupled system, Physical Review A 2013, 87(6): 062337.
31. Hong-Fu Wang*, Ai-Dong Zhu, Shou Zhang, Kyu-Hwang Yeon. Simple implementation of discrete quantum Fourier transform via cavity quantum electrodynamics, New Journal of Physics 2011, 13(1): 013021
32. Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang. One-step implementation of a multiqubit phase gate with one control qubit and multiple target qubits in coupled cavities. Optics Letters, 2014, 39(6): 1489-1492.
33. Hong-Fu Wang*, Shou Zhang, Ai-Dong Zhu, X. X. Yi, Kyu-Hwang Yeon. Local conversion of four Einstein-Podolsky-Rosen photon pairs into four-photon polarization-entangled decoherence-free states with non-photon-number-resolving detectors, Optics Express. 2011, 19(25): 25433-25440.
34. Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang, Physical optimization of quantum error correction circuits with spatially separated quantum dot spins, Optics Express 2013, 21(10): 12484-12494.
35. Xiao-Qiang Shao, Hong-Fu Wang, Li Chen, Shou Zhang, Yong-Fang Zhao, Kyu-Hwang Yeon. Converting two-atom singlet state into three-atom singlet state via quantum Zeno dynamics. New Journal of Physics 2010, 12(2): 023040.
36. Lu Qi, Yan Xing, Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang. Simulating Z2 topological insulators via a one-dimensional cavity optomechanical cells array. Optics Express 2017, 25(15): 17948-17959.
37. Yu-Mu Liu, Cheng-Hua Bai, Dong-Yang Wang, Tie Wang, Ming-Hua Zheng, Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang. Ground-state cooling of rotating mirror in double-Laguerre-Gaussian-cavity with atomic ensemble. Optics Express. 2018, 26(5): 6143-6157.
38. Yan Xing, Lu Qi, Ji Cao, Dong-Yang Wang, Cheng-Hua Bai,Wen-Xue Cui, Hong-Fu Wang*, Ai-Dong Zhu, and Shou Zhang. Controllable photonic and phononic edge locolization via optomechanically induced Kitaev phase. Optics Express. 2018, 26(13): 16250-16264.
39. Cheng-Hua Bai, Dong-Yang Wang, Shou Zhang, and Hong-Fu Wang*. Qubit-assisted squeezing of the mirror motion in a dissipative optomechanical cavity system. Sci. China-Phys. Mech. Astron. 2019, 62(7): 970311.(ESI高被引論文1%
40. Lu Qi, Yan Xing, Ji Cao, Xin-Xin Jiang, Cheng-Shou An, Ai-Dong Zhu, Shou Zhang, and Hong-Fu Wang*. Simulation and detection of the topological properties of a modulated Rice-Mele model in a one-dimensional circuit-QED lattice. Sci. China-Phys. Mech. Astron. 2018, 61(8): 080313.
41. Zhi-Xin Yang, Liang Wang, Yu-Mu Liu, Dong-Yang Wang, Cheng-Hua Bai, Shou Zhang, and Hong-Fu Wang*. Ground state cooling of magnomechanical resonator in PT-symmetric cavity magnomechanical system at room temperature. Frontiers of Physics 2020, 15(5): 52504.
42. Yang Jiao, Cheng-Hua Bai, Dong-Yang, Shou Zhang, and Hong-Fu Wang*. Optical nonreciprocal response and conversion in a Tavis-Cummings coupling optomechanical system. Quantum Engineering 2020, 2(2): e39 [1] 

王洪福獲獎記錄

王洪福學術榮譽

(1)國務院政府特殊津貼專家(2023)
(2)吉林省突出貢獻獎勵人才(2023)
(3)吉林省高層次人才分類B類人才(國家級領軍人才)(2023)
(4)吉林省長白山人才工程科技創新領軍人才--長白山學者(2021)
(5)國家優秀青年科學基金獲得者(2018)
(6)第七批“吉林省拔尖創新人才”第一層次人選(2019)
(7)第五批“吉林省拔尖創新人才”第二層次人選(2015)
(8)吉林省中青年科技創新領軍人才(2015)
(9)第十三批“吉林省有突出貢獻的中青年專業技術人才”(2014)
(10)第三批“吉林省高校新世紀科學技術優秀人才”(2013)
(11)第三批“吉林省拔尖創新人才”第三層次人選(2012)
(12)首批“吉林省高校科研春苗人才”(2012) [1] 

王洪福科研獲獎

(1)腔光力系統中機械振子的基態冷卻及相干操控,吉林省自然科學獎三等獎;
(2)腔光力系統中的量子光學響應及量子相干操控,吉林省自然科學獎二等獎;
(3)吉林省青年科技獎;
(4)腔量子電動力學量子相干操控與量子信息處理,吉林省科學技術獎-自然科學獎二等獎;
(5)基於光子和原子的量子計算與量子糾纏網絡,吉林省科學技術獎-自然科學三等獎 ;
(6)基於腔量子電動力學的量子計算,吉林省科學技術獎-科技進步三等獎;
(7)吉林省自然科學學術成果二等獎 3項(2013、2014、2015)
(8)吉林省自然科學學術成果三等獎 1項(2012)
(9)延邊大學樸玉蓮優秀中青年教師科研獎”(2015) [1] 
參考資料