Department of Photonics Engineering

Journal Publications List


  1. W.Wang, S. Xiao , and N. A. Mortensen, Localized plasmons in bilayer graphene nanodisks , Phys. Rev. B, 93, 165407 (2016).
  2. S. Xiao , X. Zhu, B-H. Li, and N. A. Mortensen, Graphene-plasmon polaritons: From fundamental properties to potential applications , Front. Phys. 11(2), 117801 (2016).
  3. M. Danaeifar, N. Granpayeh, N.A. Mortensen, and S. Xiao, Equivalent conductivity method: Straightforward analytical solution for metasurface-based structures , J. Phys. D: Appl. Phys., 48, 385106 (2015).
  4. B. Xiao, K. Qin, S. Xiao, and Z. Han, Metal-loaded graphene surface plasmon waveguides working in the terahertz regime , Opt. Commun. 355, 602 (2015).
  5. Y. Yang, H. Chen, S. Xiao, N.A. Mortensen, and J. Zhang, Ultrathin 90-degree sharp bends for spoof surface plasmon polaritons , Opt. Express, 23, 19074 (2015).
  6. Y. Ding, X. Zhu, S. Xiao, H. Hu, L.H. Frandsen, N.A. Mortensen, and K. Yvind, Effective electro-optical modulation with high extinction ratio by a grapheme-silicon microring resonator , Nano. Lett., 15, 4393 (2015).
  7. K. Wu, T. Rindzevicius, M.S. Schmidt, K.B. Morgensen, S. Xiao, and A. Boisen, Plasmon resonances of Ag capped Si nanopillars fabricated using mask-less lithography , Opt. Express, 23, 12965 (2015).
  8. Y. Dai, X. Zhu, N.A. Mortensen, J. Zi and S. Xiao, Nanofocusing in a tapered graphene plasmonic waveguide , J. Opt., 17, 065002 (2015).
  9. X. Zhu, W. Wang, W. Yan, M.B. Larsen, P. Bøggild, T.G. Pedersen, S. Xiao, J. Zi, and N.A. Mortensen, Plasmon-phonon coupling in large-area graphene dot and antidot arrays fabricated by nanosphere lithography , Nano. Lett., 14, 2907 (2014).
  10. Y. Ou, X. Zhu, V. Jokubavicius, R. Yakimova, N.A. Mortensen, M. Syväjärvi, S. Xiao, and H. Ou, Broadband antireflection and light extraction enhancement in Fluorescent SiC with nanodome structures , Sci. Rep. 4, 4662 (2014).
  11. M. Hashemi, S. Xiao, and M. H. Farzad, Phase study of the generated surface plasmons in light transmission through a subwavelength aperture , J. Nanophoton., 8, 083094 (2014).
  12. G. Gilardi, S. Xiao, N.A. Mortensen, A.d'Alessandro, and R. Beccherelli, Plasmon resonance optical tuning based on photosensitive composite structures , J. Opt. Soc. Am. B, 31, 360 (2014).
  13. X. Zhu, L. Shi, M.S. Schmidt, A. Boisen, O. Hansen, J. Zi, S. Xiao, and N.A. Mortensen, Enhanced light-matter interaction in graphene-coved gold nanovoid array , Nano Lett., 13, 4690 (2013).
  14. G. Toscano, S. Raza, W. Yan, C. Jeppesen, S. Xiao, M. Wubs, A.-P. Jauho, S. I. Bozhevolnyi, and N.A. Mortensen, Nonlocal response plasmonic waveguiding with extreme light confinement , Nanophotonics, 2, 106 (2013).
  15. M. Hashemi, M.H. Farzad, N.A. Mortensen, and S. Xiao, Enhanced plasmonic light absorption for silicon Schottky-barrier photodetectors , Plasmonics, 8, 1059 (2013).
  16. X. Zhu, W. Yan, P.U. Jepsen, O. Hansen, N.A. Mortensen, and S. Xiao, Experimental observation of plasmons in a graphene monolayer resting on a two-dimensional subwavelength silicon grating, Appl. Phys. Lett. 102, 131101 (2013).
  17. M. Hashemi, M.H. Farzad, N.A. Mortensen, and S. Xiao, Enhanced absorption of graphene in the visible region by use of plasmonic nanostructures , J. Opt., 15, 055003 (2013).
  18. X. Zhu, W. Yan, N.A. Mortensen, and S. Xiao, Bends and splitters in graphene nanoribbon waveguides , Opt. Express, 21(3), 3486-3491 (2013).
  19. X. Zhu, Y. Ou, V. Jokubavicius, M. Syvajarvi, O. Hansen, H. Ou, N.A. Mortensen, and S. Xiao, Broadband light-extraction enhanced by arrays of whispering gallery resonators , Appl. Phys. Lett., 101, 241108 (2012).
  20. X. Zhu, C. Zhang, X. Liu, O. Hansen, S. Xiao, N. A. Mortensen, and J. Zi, Evaporation of water droplets on "lock-and-key" structures with nanoscale features , Langmuir, 28(25), 9201-9205 (2012).
  21. G. Toscano, S. Raza, S. Xiao, M. Wubs, A.-P. Jauho, S.I. Bozhevolnyi, and N.A. Mortensen, Surface-enhanced Raman spectroscopy (SERS): nonlocal limitations , Opt. Lett., 37 (13), 2538-2540 (2012).
  22. X. Zhu, F. Xie, L. Shi, X. Liu, N. A. Mortensen, S. Xiao, J. Zi, and W. Choy, Broadband enhancement of spontaneous emission in a photonic-plasmonic structure , Opt. Lett., 37(11), 2037-2039 (2012).
  23. S. Xiao , E. Stassen, and N.A. Mortensen, Ultrathin silicon solar cells with enhanced photocurrents assisted by plasmonic nanostructures , J. Nanophotonics, 6, 061503 (2012).
  24. X. Zhu, S. Xiao, L. Shi, X. Liu, J. Zi, O. Hansen, and N. A. Mortensen, A stretch-tunable plasmonic nanostructure with a polarization dependent response , Opt. Express, 20(5), 5237-5242(2012).
  25. G. Gilardi, S. Xiao, R. Beccherelli, A. d'Alessandro, and N.A. Mortensen, Geometrical and fluidic tuning of periodically modulated thin metal films , Photonics Nanostr. 10 (1), 177-182 (2012).
  26. J. Zhang, S. Xiao, M. Wubs, and N. A. Mortensen, Surface plasmon wave adapter designed with transformation optics , ACS Nano, 5 (6), 4359-4364 (2011).
  27. Y. Jin, S. Xiao, N. A. Mortensen, and S. L. He, Perfect absorption and giant magnification with a thin metamaterial layer , Opt. Express , 19 (12), 11114-11119 (2011).
  28. Z.F. Öztürk, S. Xiao, M. Yan, M. Wubs, A.-P. Jauho, and N.A. Mortensen, Field enhancement at metallic interfaces due to quantum confinement, J. Nanophoton., 5, 051602 (2011).
  29. S. Xiao , and N. A. Mortensen, Surface-plasmon-polariton-induced suppressed transmission through ultrathin metal disk arrays , Opt. Lett. , 36(1), 37-39 (2011).
  30. C. Jeppesen, S. Xiao, N. A. Mortensen, and A. Kristensen, Extended verification of scaling behavior in split-ring resonators, Opt. Commun., 284 (3), 799-801 (2011).
  31. C. Jeppesen, S. Xiao, N. A. Mortensen, and A. Kristensen, Metamaterial localized resonance sensors: prospects and limitations, Opt. Express, 18 (24), 25075-25080 (2010). 
  32. S. Xiao , J. Zhang, L. Peng, C. Jeppesen, R. Malureanu, A. Kristensen, and N. A. Mortensen, Nearly-zero transmission through periodically modulated ultrathin metal films, Appl. Phys. Lett., 97 (7), 071116 (2010).
  33. J. Zhang, S. Xiao, C. Jeppesen, A. Kristensen, and N. A. Mortensen, Electromagnetically induced transparency in metamaterials at near-infrared frequency, Opt. Express, 18 (16) 17187-17192 (2010).
  34. J. Grgic, S. Xiao, J. Mørk, A-P. Jauho, and N.A. Mortensen, Slow-light enhanced absorption in a hollow-core fiber, Opt. Express , 18 (13), 14270-14279 (2010).
  35. S. Xiao , L. Peng, and N.A. Mortensen, Enhanced transmission of transverse electric waves through periodic arrays of structured subwavelength apertures, Opt. Express , 18 (6), 6040-6047 (2010).
  36. J. Grgic, J.G. Pedersen, S. Xiao, N.A. Mortensen, Group-index limitations in slow-light photonic crystal, Photo Nanostruct: Fundam Appl, 8, 56-61 (2010).
  37. S. Raza, J. Grgic, J.G. Pedersen, S. Xiao, N.A. Mortensen, Coupled-resonator optical waveguides: Q-factor influence on slow-light propagation and the maximal group delay, J. Eur. Opt. Soc., Rapid Publ., 5, 10009 (2010).
  38. C. Jeppesen, R. B. Nielsen, A. Boltasseva, S. Xiao, N. A. Mortensen, and A. Kristensen, Thin film Ag superlens towards lab-on-a-chip integration , Opt. Express, 17 (25), 22543-22552 ( 2009). Selected for the Virtual Journal for Biomedical Optics, Volume 5, Issue 1, Jan. 4, 2010.
  39. P. Skafte-Pedersen, P.S. Nunes, S. Xiao, and N.A. Mortensen, Material limitations on the detection limit in refractometry, Sensor, 9 (11), 8382-8390 (2009).
  40. C. Karnutsch, C.L.C. Smith, A. Graham, R. Mephedran, B. J. Eggleton, L, O’Faolain, T.F. Krauss, S. Xiao, N.A. Mortensen, Temperature stabilization of optofluidic photonic crystal cavities, Appl. Phys. Lett., 94, 231114 (2009). Also see its corrections, Appl. Phys. Lett., 96, 079901 (2010).
  41. M.B. Christiansen, A. Kristensen, S. Xiao, and N.A. Mortensen, Photonic integration in k-space: Enhancing the performance of photonic crystal dye lasers, Appl. Phys. Lett. 93, 231101 (2008).
  42. J. Pedersen, S. Xiao, and N.A. Mortensen, Limits of slow-light in photonic crystals, Phys. Rev. B, 78, 153101 (2008). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 18, Issue 16, Oct. 20, 2008.
  43. S. Xiao , N.A. Mortensen, Resonant-tunnelling-based crossing for subwavelength plasmonic slot waveguides, Opt. Express 16 (19), 14997-15005 (2008).
  44. S. Xiao , N.A. Mortensen, and A.-P. Jauho, Nanostructure design for surface-enhanced Raman spectroscopy - prospects and limits, J. Eur. Opt. Soc., Rapid Publ., 3, 08022 (2008).
  45. J. Pedersen, S. Xiao, and N.A. Mortensen, Slow-light enhanced absorption for bio-chemical sensing applications: potential of low-contrast lossy materials, J. Eur. Opt. Soc., Rapid Publ., 3, 08007 (2008). 
  46. N.A. Mortensen, S. Xiao, and J. Pedersen, Liquid-infiltrated photonic crystals - enhanced light-matter interactions for lab-on-a-chip applications, Invited Paper, "Optofluidics" special issue, Microfluidics and Nanofluidics, 4, 117-127 (2008).
  47. M.E.V. Pedersen, L.S. Rishøj, H. Steffensen, S. Xiao, and N.A. Mortensen, Slow-light enhanced optical detection in liquid-infiltrated photonic crystals, Opt. Quant. Electron., 39, 903-911 (2007).
  48. S. Xiao and N.A. Mortensen, Proposal of highly sensitive optofluidic sensors based on dispersive photonic crystal waveguidesJ. Opt. A: Pure Appl. Opt., 9S463-S467 (2007).
  49. S. Xiao and M. Qiu, Optical microcavities based on surface modes in two-dimensional photonic crystals and silicon-on-insulator photonic crystals, J. Opt. Soc. Am. B, 24 (5), 1225-1229 (2007). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 15, Issue 17, April 30, 2007.
  50. N.A. Mortensen and S. Xiao, Slow-light enhancement of Beer-Lambert-Bouguer absorptionAppl. Phys. Lett., 90, 141108 (2007). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 15, Issue 15, April 16, 2007.
  51. S. Xiao , N.A. Mortensen, and M. Qiu, Enhanced transmission through arrays of subwavelength holes in gold films coated by a finite dielectric layer, J. Eur. Opt. Soc., Rapid Publ., 2, 07009 (2007). 
  52. S. Xiao and M. Qiu, Theoretical study of the transmission properties of a metallic film with surface corrugations, J. Opt. A: Pure Appl. Opt., 9, 348-351 (2007).
  53. Z. Zhang, M. Mainese, L. Wosinski, S. Xiao, M. Qiu, M. Swillo, and U. Andersson, Optical filter based on two-dimensional photonic crystal surface-mode cavity in amorphous silicon-on-silica structure, Appl. Phys. Lett., 90, 041108 (2007). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 15, Issue 5, February 5, 2007.
  54. N. A. Mortensen, S. Ejsing, and S. Xiao, Liquid-infiltrated photonic crystal: Ohmic dissipation and broadening of modes, J. Eur. Opt. Soc., Rapid Publ., 1, 06032 (2006).
  55. S. Xiao and N.A. Mortensen, Highly dispersive photonic band-gap-edge optofluidic biosensors, J. Eur. Opt. Soc., Rapid Publ., 1, 06026 (2006).
  56. N.A. Mortensen, S. Xiao, and D. Felbacq, Mesoscopic magnetism in dielectric photonic crystal metamaterial: topology and inhomogeneous broadening, J. Eur. Opt. Soc., Rapid Publ., 1, 06019 (2006).
  57. S. Xiao , L. Liu, and M. Qiu, Resonator channel drop filters in a plasmon-polaritons metal , Opt. Express 14 (7), 2932-2937 (2006).
  58. S. Xiao and M. Qiu, High-Q microcavities realized in a circular photonic crystal slab, Photo Nanostruct: Fundam Appl, 3,134-138 (2005).
  59. S. Xiao and M. Qiu, Surface-mode microcavity, Appl. Phys. Lett., 87, 111102 (2005).
  60. S. Xiao and M. Qiu, Doppler effects in a left-handed material: a first principle theoretical study, Microw. Opt. Techn. Lett., 47, 76-79 (2005).
  61. M. Qiu, S. Xiao, A. Berrier, S. Anand, L. Thylen, M. Mulot, M. Swillo, Z. Ruan, and S. He, Negative refraction in two-dimensional photonic crystals, Appl. Phys. A, 80, 1231-1236 (2005).
  62. Z. Ruan, M. Qiu, S. Xiao, S. He, and L. Thylén, Coupling between plane waves and Bloch waves in photonic crystals with negative refraction, Phys. Rev. B, 71, 045111 (2005). selected for the Virtual Journal of Nanoscale Science & Technology, Volume 11, Issue 3, January 24, 2005.
  63. S. Xiao , M. Qiu, Z. Ruan, and S. He, Influence of the surface termination to the point imaging by a photonic crystal slab with negative refraction, Appl. Phys. Lett., 85 (19), 4269-4271 (2004). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 10, Issue 21, November 22, 2004.
  64. S. Xiao , L. Shen, and S. He, A novel coupler formed by left-handed material, IEEE Photo. Tech. Lett., 16 (1), 171-173 (2004).
  65. Shen, S. Xiao, and Q. Wu, Exact expression for decoherence factor in the time-dependent generalized Cini model, Chin. Opt. Lett., 1 (3), 183-186 (2003).
  66. S. Xiao L. Shen, and S. He, Large Complete Band Gap at Low and High Frequencies in a 2D Anisotropic Photonic Crystal, Acta Phys. Sin-Chinese Edition, 51 (12), 186-192 (2002).
  67. L. Shen, S. He, and S. Xiao, Large absolute band gaps in two-dimensional photonic crystals formed by large dielectric pixels , Phys. Rev. B, 66 , 165315 (2002). Selected for the Virtual Journal of Nanoscale Science & Technology, Volume 6, Issue 19, November 4, 2002.
  68. F. Zhuang, S. Xiao, J. He, and S. He, A FDTD Method for Calculating Defect Modes in a two-dimensional Photonic Crystal Consisting of Anisotropic Cylinders, Acta Phys. Sin-Chinese Edition, 51 (9), 2167-2172 (2002).
  69. L. Shen, S. He, and S. Xiao, A finte-difference eigenvalue algorithm for calculating the band structure of a photonic crystal , Comput. Phys. Commun., 143 , 213-221 (2002).
  70. F. Zhuang, L. Wu, S. Xiao, and S. He, Band structure of a two-dimensional photonic crystal with a triangular lattice of anisotropic elliptic cylinders , Chin. Phys. Lett., 19 (1), 73-75 (2002).
  71. J. He, L. Shen, S. Xiao, and S. He, Large absolute photonic bandgap at high frequencies in a two-dimensional photonic crystal with a hexagonal structure , Chin. Phys. Lett., 19 (1), 69-72 (2002).
  72. J. Fu, S. He, S. Xiao, M. Qiu, and J. He, Theoretical Analysis of a vertical channel-dropping tunnelling processes in photonic crystals for wavelength division demultiplexing , Chin. Phys. Lett ., 18 (12), 1613-1616 (2001).
  73. S. He, S. Xiao, L. Shen, J. He, and J. Fu, A new finite-difference time domain method for photonic crystals consisting of nearly-free-electron metals Phys. A-Math. Gen . , 34 (45), 9713-9721 (2001).  
  74. S. Xiao , S. He, and F. Zhuang, Guided modes in a two-dimensional photonic crystal waveguide consisting of nearly-free-electron metals, Chin. Phys. Lett., 18 (10), 1363-1365 (2001).
  75. S. Xiao , S. He, Q. Lin, and L. Shen, Defect mode computation in two dimensional photonic crystals consisting of nearly-free-electron metals , Chin. Phys. Lett . , 18 (9), 1218-1221 (2001).  
  76. J. Fu, S. He, and S. Xiao, Analysis of channel-dropping tunnelling processes in photonic crystals with multiple vertical multi-mode cavities, J Phys. A-Math. Gen., 33 (43), 7761-7771 (2000).

Last updated 06.04.2016
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