EDIT
陳岳男
Chen, Yueh-Nan
  個人網頁(Personal Website)
聯絡電話(Contact Phone Number):
65268 
電子郵件(E-MAIL):
yuehnan at mail.ncku.edu.tw
單位職稱(Department/Position):
物理系 教授(Physics, Professor)
最高學歷(Degree)
  國立交通大學博士(Ph. D. National Chiao Tung University)
專 長(Expertises)
  量子傳輸,量子光學,量子資訊(quantum transport, quantum optics, and quantum information science)
經 歷(Experiences)
  • Editorial Board Member of Scientific Reports (2017)
  • Center Scientist of NCTS (June 2015 ~ May 2017)
  • Professor, Department of Physics, National Cheng Kung University (Aug. 2014 ~ present)
  • Associate Professor, Department of Physics, National Cheng Kung University (Aug. 2010 ~ July 2014)
  • Coordinator of "Quantum Information Science" Focus Group (2007 ~ 2010)
  • Center Scientist of NCTS (Oct. 2006 ~ Sep. 2011)
  • Assistant Professor, Department of Physics, National Cheng Kung University (Oct. 2006 ~ July 2010)
  • Postdoctoral Research Scholar (特約博士後研究學者, Aug. 2004 ~ July. 2006)
  • Adjunct Assistant Professor, Department of Electrophysics, National Chiao-Tung University, Taiwan (Feb. 2003 ~ July 2003)
  • Postdoctoral Research Fellow, Department of Electrophysics, National Chiao-Tung University, Taiwan (Oct. 2002 ~ July. 2004)
  • Institute of Theoretical Physics, University of Hamburg, Germany (DAAD Scholarship, Sep.2000 ~ Feb. 2001)
 
開授課程(Teaching Courses)
     
    歷屆學生(Graduate Students Supervised)
    編號 畢業年份 姓名 學位 畢業論文 共同指導
    132017陳信良博士
    122015陳宏斌博士
    112015邱品禕碩士
    102015施彥安碩士
    92015古煥宇碩士
    82015許詠聖碩士
    72015趙勁翔碩士
    62011陳緯博士
    52011林瓚東碩士
    42010金功碩士
    32010吳俊德碩士
    22009鄧仲庭碩士
    12008陳宏斌碩士
    研究計畫(Research Projects)
      編號 計劃名稱(編號) 執行期間 補助單位 擔任職務
      6量子操縱不等式之研究以及其在生物系統中的應用Aug. 2014 ~ July 2018科技部計畫主持人
      5生物系統中量子傳輸性質之研究Aug. 2012 ~ July 2015國科會計畫主持人
      4量子點量子位元的量測分析Jan. 2010 ~ Dec. 2010教育部計畫主持人
      3表面電漿子與量子點傳輸性質之研究Aug. 2009 ~ July 2012國科會計畫主持人
      2量子點量子位元在非馬可夫過程下的動態研究Nov. 2006 ~ July 2009國科會計畫主持人
      1介觀物理系統在光子晶體中的量子散粒雜訊(I~II)93/8~95/7國科會計畫主持人
      著 作(Publications)


      --------------------
      Journals:
      --------------------
      80. Spatio-Temporal Steering for Testing Nonclassical Correlations in Quantum Networks,
      Scientific Reports 7, 3728 (2017), Shin-Liang Chen, Neill Lambert, Che-Ming Li, Guang-Yin Chen, Yueh-Nan Chen*, Adam Miranowicz, Franco Nori.

      79. Plasmonic bio-sensing for the Fenna-Matthews-Olson complex,
      Scientific Reports 7, 39720 (2017), Guang-Yin Chen*, Neill Lambert, Yen-An Shih, Meng-Han Liu, Yueh-Nan Chen*, and Franco Nori.

      78. Temporal steering in four dimensions with applications to coupled qubits and magnetoreception,
      Phys. Rev. A 94, 062126 (2016), Ku Huan-Yu, Shin-Liang Chen, Hong-Bin Chen, Neill Lambert, Yueh-Nan Chen*, and Franco Nori.

      77. Scattering of nanowire surface plasmons coupled to quantum dots with azimuthal angle difference,
      Scientific Reports 6, 37766 (2016), Po-Chen Kuo, Guang-Yin Chen, and Yueh-Nan Chen*.

      76. Vibration-induced coherence enhancement of the performance of a biological quantum heat engine,
      Phys. Rev. E 94, 052101 (2016), H. B. Chen, P. Y. Chiu, and Y. N. Chen*.

      75. Natural framework for device-independent quantification of quantum steerability, measurement incompatibility, and self-testing,
      Phys. Rev. Lett. 116, 240401 (2016), Shin-Liang Chen, Costantino Budroni, Yeong-Cherng Liang, and Yueh-Nan Chen.

      74. Experimental violation of Bell inequalities for multi-dimensional systems,
      Scientific Reports 6, 22088 (2016), Hsin-Pin Lo, Che-Ming Li, Atsushi Yabushita, Yueh-Nan Chen, Chih-Wei Luo, and Takayoshi Kobayashi.

      73. Quantifying non-Markovianity with temporal steering,
      Phys. Rev. Lett. 116, 020503 (2016), Shin-Liang Chen, Neill Lambert, Che-Ming Li, Adam Miranowicz, Yueh-Nan Chen*, and Franco Nori.

      See also:
      http://phys.cts.nthu.edu.tw/intro/news.php?Sn=97

      72. Certifying single-system steering for quantum-information processing,
      Phys. Rev. A 92, 062310 (2015), Che-Ming Li, Yueh-Nan Chen, Neill Lambert, Ching-Yi Chiu, and Franco Nori.

      71. Relative nonclassicality quantified by standard entanglement potentials can be increased by dissipation and unbalanced beam splitting,
      Phys. Rev. A 92, 062314 (2015), Adam Miranowicz, Karol Bartkiewicz, Neill Lambert, Yueh-Nan Chen, and Franco Nori.

      70. Detecting the existence of an invisibility cloak using temporal steering,
      Scientific Reports 5, 15571 (2015), S. L. Chen, C. S. Chao, and Y. N. Chen*.

      69. Hierarchy of non-Markovianity and k-divisibility phase diagram of quantum processes in open systems,
      Phys. Rev. A 92, 042105 (2015), H. B Chen, J. Y. Lien, G. Y. Chen, and Y. N. Chen*.

      68. Using non-Markovian measures to evaluate quantum master equations for photosynthesis,
      Scientific Reports 5, 12753 (2015), H. B. Chen, N. Lambert, Y. C. Cheng, Y. N. Chen*, and F. Nori.

      67. Genuine high-order Einstein-Podolsky-Rosen steering,
      Phys. Rev. Lett. 115, 010402 (2015), Che-Ming Li, Kai Chen, Yueh-Nan Chen, Qiang Zhang, Yu-Ao Chen, and Jian-Wei Pan.

      66. Statistical mixtures of states can be more quantum than their superpositions: Comparison of nonclassicality measures for single-qubit states,
      Phys. Rev. A 91,042309 (2015), A. Miranowicz, K. Bartkiewicz, A. Pathak, J. Pe\v{r}ina Jr., Y. N. Chen, and F. Nori.

      65. Multistability and condensation of exciton-polaritons below threshold,
      Phys. Rev. B 91, 024511 (2015), J. Y. Lien, Y. N. Chen*, N. Ishida, H. B. Chen, C. C. Hwang, and F. Nori.

      64. Increase of entanglement by local PT-symmetric operations,
      Phys. Rev. A 90, 054301 (2014), S. L. Chen, G. Y. Chen, and Y. N. Chen*.

      63. 量子生物學, 陳岳男, 自然科學簡訊 Vol. 26, pp. 116 (2014).

      62. Scattering of microwave photons in superconducting transmission-line resonators coupled to charge qubits,
      Phys. Rev. A 89, 053802 (2014), G. Y. Chen, M. H. Liu, and Y. N. Chen*.

      61. Long-lived quantum coherence and non-Markovianity of photosynthetic complexes,
      Phys. Rev. E 89, 042147 (2014), H. B. Chen, J. Y. Lien, C. C. Hwang, and Y. N. Chen*.

      60. Temporal steering inequality,
      Phys. Rev. A 89, 032112 (2014), Y. N. Chen*, C. M. Li, N. Lambert, Y. Ota, S. L. Chen, G. Y. Chen, and F. Nori.

      59. Entanglement swapping and testing quantum steering into the past via collective decay,
      Phys. Rev. A 88, 052320 (2013), Y. N. Chen*, S. L. Chen, N. Lambert, C. M. Li, G. Y. Chen, and F. Nori.

      58. Rerouting Excitation Transfers in the Fenna-Matthews-Olson Complex,
      Phys. Rev. E, 88, 032120 (2013), Guang-Yin Chen, Neill Lambert, Che-Ming Li, Yueh-Nan Chen*, and Franco Nori.

      57. Examining non-locality and quantum coherent dynamics induced by a common reservoir,
      Scientific Reports 3, 2514 (2013). G. Y. Chen, S. L. Chen, C. M. Li, and Y. N. Chen*.

      56. Quantum Biology,
      Nature Physics 9, 10 (2013), Neill Lambert, Yueh-Nan Chen, Yuan-Chung Cheng, Che-Ming Li, Guang-Yin Chen, and Franco Nori.

      See also:
      生物系統中的量子效應
      http://nano.colife.org.tw/index.php?apps=taiwanNano&mod=welcome&action=show&gid=808

      Schrodinger's gardenia: Does biology need quantum mechanics?
      http://arstechnica.com/science/2012/12/schrodingers-gardenia-does-biology-need-quantum-mechanics/

      Non-trivial biological quantum effects
      http://mappingignorance.org/2012/12/26/non-trivial-biological-quantum-effects/

      55. Witnessing Quantum Coherence: from solid-state to bio-logical systems,
      Scientific Reports 2, 885 (2012), Che-Ming Li, Neill Lambert, Yueh-Nan Chen*, Guang-Yin Chen, and Franco Nori.

      See also:
      Riken Research Highlights: Searching for quantum physics in all the right places
      http://www.rikenresearch.riken.jp/eng/research/7316.html

      54. Delocalized single-photon Dicke states and the Leggett-Garg inequality in solid state systems,
      Scientific Reports 2, 869 (2012), Guang-Yin Chen, Neill Lambert, Che-Ming Li, Yueh-Nan Chen*, and Franco Nori.

      53. Functional quantum biology in photosynthesis and magnetoreception,
      arXiv:1205.0883 (2012), Neill Lambert, Yueh-Nan Chen, Yuan-Chung Cheng, Che-Ming Li, Guang-Yin Chen, Franco Nori.

      See also news of technology review by MIT: The Quantum Biology Conundrum
      http://www.technologyreview.com/blog/arxiv/27829/

      52. Correspondence between entanglement and Fano resonance of surface plasmons,
      Opt. Lett. 37, 4023 (2012), G. Y. Chen and Y. N. Chen*.

      51. Generating maximum entanglement under asymmetric couplings to surface plasmons,
      Opt. Lett. 37, 1337 (2012); G. Y. Chen, C. M. Li, and Y. N. Chen*.

      50. Controlling Fano resonance of nanowire surface plasmons,
      Opt. Lett. 36, 3602 (2011); W. Chen, G. Y. Chen, and Y. N. Chen*.

      49. Detecting quantum phase transitions of photons through a defect cavity,
      New J. Phys. 13, 083036 (2011), J. Y. Lien, Y. N. Chen*, and C. H. Chou.

      48. Surface plasmons in a metal nanowire coupled to colloidal quantum dots: Scattering properties and quantum entanglement,
      Phys. Rev. B, 84, 054310 (2011), G. Y. Chen, N. Lambert, C. H. Chou, Y. N. Chen*, and F. Nori.

      47. Retardation effects in quantum dot systems coupled via one-dimensional waveguides,
      Opt. Commun. 284, 4529 (2011), H. B. Chen, G. Y. Chen, and Y. N. Chen*

      46. Magneto-electronic properties of rhombohedral trilayer graphene: Peierls tight-binding model,
      Annals of Physics 326, 721 (2011), C. H. Ho, Y. H. Ho, Y. H. Chiu, Y. N. Chen, M. F. Lin

      45. Verifying genuine high-order entanglement
      Phys. Rev. Lett. 105, 210504 (2010), C. M. Li, K. Chen, A. Reingruber, Y. N. Chen*, and J. W. Pan.

      44. Unified single-photon and single-electron counting statistics: From cavity QED to electron transport
      Phys. Rev. A 82, 063840 (2010), N. Lambert, Y. N. Chen*, and F. Nori

      43. Distinguishing quantum and classical transport through nanostructures
      Phys. Rev. Lett. 105, 176801 (2010), N. Lambert, C. Emary, Y. N. Chen, and F. Nori.

      See also news:
      http://www.physorg.com/news/2010-12-quantum-mathematical-equations-nanostructures-behavior.html
      http://www.technologyreview.com/blog/arxiv/24824/
      http://www.azonano.com/news.asp?newsID=21001

      42. Coherent transport of nanowire surface plasmons coupled to quantum dots
      Opt. Express 18, 10360 (2010), W. Chen, G. Y. Chen, and Y. N. Chen*

      41. Pure dephasing of double-quantum-dot charge qubits in freestanding slabs
      Phys. Rev. B 81, 153301 (2010), Y. Y. Liao and Y. N. Chen

      40. Angle-dependent decoherence of charge qubits in free-standing slab
      J. Phys. C. 22, 045301 (2010), Y. Y. Liao, Y. N. Chen, and S. R. Jian

      39. Detecting Bose-Einstein condensation of exciton-polaritons via electron transport
      Phys. Rev. B 80, 235335 (2009), Y. N. Chen*, N. Lambert, and F. Nori

      38. Quantum chaos and critical behavior on a chip
      Phys. Rev. B 80, 165308 (2009), N. Lambert, Y. N. Chen, R. Johansson, and F. Nori

      37. Fluorescence signals of quantum dots influenced by spatially controlled array structures
      Nanotechnology 20, 415201 (2009), J. W. Chou, K. C. Lin, Y. T. Tang, F. K. Hsueh, Yao-Jen Lee, C. W. Luo, Y. N. Chen, C. T. Yuan, Hsun-Chuan Shih, W. C. Fan, M. C. Lin, W. C. Chou and D. S. Chuu.

      36. Detecting non-Markovian plasmonic bandgaps in quantum dots using electron transport
      Phys. Rev. B 79, 245312 (2009); Y. N. Chen*, G. Y. Chen, Y. Y. Liao, N. Lambert, and F. Nori.

      35. Quantum-dot exciton dynamics with a surface plasmon: Band-edge quantum optics
      Phys. Rev. A 79, 033815 (2009); Y. N. Chen, G. Y. Chen, D. S. Chuu, and T. Brandes.

      34. Proposal for observation of retardation effect between two quantum dots via current noise
      Appl. Phys. Lett. 93, 132101 (2008); Yueh-Nan Chen* and Lukas Gilz.
      (Selected as the Cover Image for APL Sep. 29, 2008)

      33. Spontaneous emission of quantum dot excitons into surface plasmons in a nanowire
      Opt. Lett. 33, 2212 (2008); G. Y. Chen, Y. N. Chen*, and D. S. Chuu.

      32. Photoinduced fluorescence enhancement in colloidal CdSeTe/ZnS core/shell quantum dots
      Appl. Phys. Lett. 92, 183108 (2008); C. T. Yuan, W. C. Chou, D. S. Chuu,
      Y. N. Chen, C. A. Lin, and W. H. Chang.

      31. Proposal for detection of non-Markovian decay via current noise,
      Phys. Rev. B 77, 035312 (2008); Yueh-Nan Chen and Guang-Yin Chen.

      30. Decoherence of a charge qubit embedded inside a suspended phonon cavity,
      Phys. Rev. B 77, 033303 (2008); Y. Y. Liao, Y. N. Chen, W. C. Chou, D. S. Chuu.

      29. Study of fluorescence enhancement of colloidal CdSe/ZnS quantum dots bound to hexadecylamine by single-molecule measurements, J. Phys. Chem. C 111, 15166 (2007),
      Chi-Tsu Yuan, Wu-Ching Chou, Yueh-Nan Chen, Jui-Wen Chou, Der-San Chuu, Cheng-An J. Lin, Jimmy K. Li, Walter H. Chang, and Ji-Lin Shen.

      28. Entanglement detection via the condition of quantum correlation,
      Phys. Rev. A 76, 032313 (2007); Che-Ming Li, Li-Yi Hsu, Yueh-Nan Chen, Der-San Chuu, and Tobias Brandes.

      27. The Aharonov-Bohm effect in concentric quantum double rings,
      Solid State Communications 143, 515 (2007); Guang-Yin Chen, Yueh-Nan Chen, and Der-San Chuu.

      26. Super-Poissonian noise in a quantum dot p-i-n junction,
      Appl. Phys. Lett. 90 162114 (2007); Yueh-Nan Chen.

      25. Studies on the electronic and vibrational states of colloidal CdSe/ZnS quantum dots under high pressures,
      Nanotechnology 18, 185402 (2007); C. T. Yuan, Y. C. Lin, Y. N. Chen, Q. L. Chiu, W. C. Chou, D. S. Chuu, W. H. Chang, H. S. Lin, R. C. Ruaan and C.M. Lin.

      24. Electron transport of a driven three-level system in an asymmetric double quantum dot irradiated by an external field,
      Phys. Rev. B. 75, 125325 (2007), Liao YY, Chuu DS, and Chen YN.

      23. Orientation of adsorbed dipolar molecules: A conical well model
      Phys. Rev. B. 73, 115421 (2006); Liao YY, Chen YN, Chou WC, and Chuu DS.

      22. Spin relaxation in a GaAs quantum dot embedded inside a suspended phonon cavity,
      Phys. Rev. B. 73, 085310 (2006), Liao YY, Chen YN, Chuu DS, and T. Brandes.

      21. Effect of laser pulses on the generation of rotational entangled states between two molecules,
      J. Phys. B, 39 421 (2006), Liao YY, Chen YN, Li CM, and Chuu DS.

      20. Shot noise of quantum ring excitons in a planar microcavity,
      Phys. Rev. B. 72, 233301 (2005), Chen YN, Chuu DS, and Cheng SJ.

      19. Current noise of a quantum dot p-i-n junction in a photonic crystal,
      Phys. Rev. B. 72, 153312 (2005), Chen YN, Chuu DS, and T. Brandes.

      18. Proposal for teleportation of charge qubits via superradiance,
      New Journal of Physics 7, 172 (2005), Chen YN, Li CM, Chuu DS, and T. Brandes.

      17. W state generation and effect of cavity photons on the purification of dot-like single quantum well excitons,
      IJQI 3, 111 (2005), Li CM, Chen YN, Luo CW, Hsieh JY, and Chuu DS.

      16. Alignment and orientation of absorbed dipole molecules,
      Phys. Rev. B. 70, 233410 (2004), Y. Y. Liao, Chen YN, and Chuu DS.

      15. Orientations of two coupled molecules,
      Chem. Phys. Lett. 398, 418 (2004), Liao YY, Chen YN and Chuu DS.

      14. Shot noise spectrum of superradiant entangled excitons,
      Phys. Rev. B. 69, 245323 (2004), Chen YN, T. Brandes, Li CM, and Chuu DS.

      13. Superradiant and Aharonov-Bohm effect for the quantum ring exciton,
      Solid State Commun. 130, 491 (2004), Chen YN and Chuu DS.

      12. Renormalized frequency shift of a Wannier exciton in a one-dimensional system,
      Phys. Lett. A 324, 86 (2004), Chen YN and Chuu DS.

      11. Current detection of superradiance and induced entanglement of double quantum dot excitons,
      Phys. Rev. Lett. 90, 166802 (2003), Chen YN, Chuu DS, and T. Brandes.

      10. Current induced entanglement of double quantum dot excitons,
      International journal of nanoscience Vol. 2, 527 (2003), Chen YN and Chuu
      DS.

      9. Decay rate and renormalized frequency shift of superradiant exciton in a cylindrical quantum wire,
      Physica B 334, 175 (2003), Chen YN and Chuu DS,

      8. Resonant tunneling into a quantum dot embedded inside a microcavity,
      Phys. Rev. B 66, 165316 (2002), Chen YN and Chuu DS

      7. Bound state of the quantum dot formed at intersection of L- or T-shaped quantum wire in inhomogeneous magnetic field,
      J. Appl. Phys. 91, 3054 (2002), Lin YK, Chen YN, Chuu DS.

      6. Bound states of L- or T-shaped quantum wires in inhomogeneous magnetic fields,
      Phys. Rev. B 64, 193316 (2001), Lin YK, Chen YN, Chuu DS.

      5. Decay rate and renormalized frequency shift of a quantum wire Wannier exciton in a planar microcavity,
      Phys. Rev. B 64, 125307 (2001), Chen YN, Chuu DS, Brandes T and Kramer. B.

      4. Decay rate of a Wannier exciton in low-dimensional systems,
      Europhys. Lett. 54, 366 (2001), Chen YN and Chuu DS.

      3. Effect of electron-phonon interaction on the impurity binding energy in a quantum wire,
      Physica B 291, 228 (2000), Chuu DS, Chen YN and Lin YK.

      2. Decay rate and renormalized frequency shift of superradiant excitons: Crossover from two-dimensional to three-dimensional crystals
      Phys. Rev. B 61, 10815 (2000), Chen YN and Chuu DS.

      1. The effect of electron-phonon interaction on the impurity binding energy in a quantum well,
      J. Phys. C 11, 8185 (1999), Chen YN, Chuu DS and Lin YK

      榮譽榜(Honors & Awards)
          1. 輔導優良教師 (2015), 教學優良教師 (2015, 2017) 
      2. 吳大猷先生紀念獎(2013)
      3. 李國鼎科技與人文講座之李國鼎研究獎 (2012)
      4. 教學優良教師(2012)
      5. 績優社團輔導老師獎 (2011) (2012)
      6. 國家理論科學中心年輕理論學者獎 (2010)
      NCTS Young Theorist Award (2010)
      7. 服務學習教學優等獎(2010)
      8. DAAD Scholarship (2000)
      9. The Phi-Tau-Phi Fellowship (1998)