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Publications

 Journal Articles

  1. T. H. Wang, A. Ghanekar, B. Shrewsbury, and M. L. Povinelli, Active tuning of angular asymmetric thermal emission via carrier injection in metal-insulator-metal resonance gratings, Surfaces and Interfaces 48: 104239 (2024).
  2. H. U. Chae, B. Shrewsbury, R. Ahsan, M. L. Povinelli, and R. Kapadia, GaAs Mid-IR Electrically Tunable Metasurfaces, Nano Letters 24: 2581-2588 (2024).
  3. Z. Sakotic, A. Ware, M. Povinelli, and D. Wasserman, Perfect Absorption at the Ultimate Thickness Limit in Planar Films, ACS Photonics 10: 4244-4251 (2023).
  4. R. Audhkhasi and M. L. Povinelli, Full spectral image encryption in the infrared using an electrically reconfigurable metasurface and a matched detector, Advanced Photonics Research 5: 2300254 (2023).
  5. M. R. Lien, N. Wang, T. Wenger, H. Wang, S. D. Gunapala, and M. L. Povinelli, An all-silicon metalens integrated with a mid-wave infrared black phosphorus photodiode, Advanced Optical Materials 12: 2301952 (2023).
  6. M. R. Lien, N. Wang, S. Guadagnini, J. Wu, A. Soibel, S. Gunapala, H. Wang, and M. L. Povinelli, Black phosphorus molybdenum disulfide mid-wave infrared photodiodes with broadband absorption-increasing metasurfaces, Nano Letters 23: 9980-9987 (2023).
  7. A. Ghanekar, B. Shrewsbury, C. W. Hsu, R. Kapadia, and M. L. Povinelli, Electro-optic symmetry breaking of BIC modes for tunable infrared emissivity, Materials Today Physics 35: 101113 (2023).
  8. B. Shrewsbury, R. Audhkhasi, and M. L. Povinelli, Electrically-induced symmetry breaking in coupled-resonator metamaterials for switchable narrowband infrared absorption, Optics Letters 48: 2441 (2023).
  9. R. Audhkhasi, Y. Qu, M. Zhou, Z. Yu, and M. L. Povinelli, Dynamically switchable self-focused thermal emission, Optics Express 31: 13357 (2023).
  10. R. Audhkhasi, M. Lien, and M. L. Povinelli, Experimental implementation of metasurfaces for secure multi-channel image encryption in the infrared, Advanced Optical Materials 11: 2203155 (2023).
  11. A. Ghanekar, J. Wang, C. Guo, S. Fan, and M. L. Povinelli, Nonreciprocal thermal emission using spatiotemporal modulation of graphene, ACS Photonics 10: 170 (2022).
  12. A. Ghanekar, R. Kapadia, and M. L. Povinelli, Directional control of emissivity with quasi-localized guided modes, Applied Physics Letters 121: 201701 (2022).
  13. H.-U. Chae, B. Shrewsbury, R. Ahsan, A. Ghanekar, M. L. Povinelli, and R. Kapadia, Monolithic III-V on metal for thermal metasurfaces, ACS Nano, 16: 18497-18502 (2022).
  14. M. Lien, N. Wang, J. Wu, A. Soibel, S. Gunapala, H. Wang, and M. L. Povinelli, Resonant grating-enhanced black phosphorus mid-wave infrared photodetector, Nano Letters 22: 8704-8710 (2022).
  15. A. Ghanekar, R. Kapadia, and M. L. Povinelli, Dynamic control of emissivity in guided mode resonance grating through index perturbation, J. Quantitative Spectroscopy and Radiative Transfer 293: 108367 (2022).
  16. M. Lien, D. Meng, Z. Liu, M. A. Sakib, Y. Tang, W. Wu, and M. L. Povinelli, Experimental characterization of a silicon photonic crystal light sail, Optical Materials Express 12: 3032 (2022).
  17. M. Barako, A. Howes, L. A. Sweatlock, V. Jankovic, P. W. C. Hon, J. Tice, M. Povinelli, and M. Knight, Evaluating variable emissivity surfaces for radiative thermal control, Journal of Thermophysics and Heat Transfer 36: 1003-1014 (2022).
  18. A. Mukherjee, A. Ghanekar, and M. L. Povinelli, Electrically tunable guide mode resonance grating for switchable photoluminescence, Applied Physics Letters 120: 191108 (2022).
  19. M. Sakib, R. Audhkhasi, and M. L. Povinelli, Using tunable inter-resonator coupling to reshape the mid-infrared absorption spectrum of graphene-based metamaterials, Optics Continuum 1: 1027 (2022).
  20. A. Ghanekar, J. Wang, S. Fan, and M. L. Povinelli, Violation of Kirchoff’s law of thermal radiation with space-time modulated grating, ACS Photonics 9: 1157 (2022).
  21. R. Audhkhasi, B. Zhao, S. Fan, Z. Yu, and M. L. Povinelli, Spectral emissivity modelling in multi-resonator systems using coupled-mode theory, Optics Express 30: 9463 (2022).
  22. B. K. Shrewsbury, A. M. Morsy, and M. L. Povinelli, Design and performance assessment of multilayer planar structure for optimized thermal homeostasis, Optical Materials Express 12: 1442 (2022).
  23. L. P. Cabellero, M. L. Povinelli, J. C. Ramirez, P. S. S. Guimaraes, and O. P. Vilela Nieto, Photonic crystal integrated logic gates and circuits, Optics Express 30: 1976 (2022).
  24. R. Audhkhasi and M. L. Povinelli, Generalized multi-channel scheme for secure image encryption, Scientific Reports 11: 22669  (2021).
  25. M. Zhou, D. Liu, S. Belling, H. Cheng, M. Kats, S. Fan, M. L. Povinelli, and Z. Yu, Inverse design of meta surfaces based on coupled-mode theory and adjoint optimization, ACS Photonics 8: 2265 (2021).
  26. R. Audhkhasi and M. L. Povinelli, Vanadium-dioxide microstructures with designable temperature-dependent thermal emission, Optics Letters 46: 1768 (2021).
  27. A. M. Morsy and M. L. Povinelli, Coupled metamaterial optical resonators for infrared emissivity spectrum modulation, Optics Express 29: 4840 (2021).
  28. M. Zhou, E. Khoram, D. Liu, B. Liu, S. Fan, M. L. Povinelli, and Z. Yu, Self-focused thermal emission and holography realized by mesoscopic thermal emitters, ACS Photonics 8: 497 (2021).
  29. L. Pedraza Caballero, M. L. Povinelli, J. C. Ramirez, P. S. S. Guimaraes, O. P. Vilela Nieto, Complementary photonic crystal integrated logic devices, Optics Letters 45: 5502 (2020).
  30. A. Morsy, M. T. Barako, V. Jankovic, V. D. Wheeler, M. W. Knight, G. T. Papadakis, L. A. Sweatlock, P. W. C. Hon, and M. L. Povinelli, Experimental demonstration of dynamic thermal regulation using Vanadium Dioxide thin filmsScientific Reports 10: 13964 (2020).
  31. A. Krishnan*, A. B. O’Gorman*, and M. L. Povinelli, Design of switchable, narrow-band thermal absorption peaks in metal-vanadium-dioxide gratings, J. Optics 22: 094002 (2020).
  32. H. Yang, H. Liu, B. Song, Y. Li, D. Meng, B. Chen, P. Hu, Y. Wang, T.-H. Ou, M. L. Povinelli, and W. Wu, Effects of roughness and resonant-mode engineering in all-dielectric metasurfaces, Nanophotonics 9: 1401 (2020).
  33. R. Audhkhasi and M.L. Povinelli, Gold-black phosphorus nanostructured absorbers for efficient light trapping in the mid-infrared, Optics Express 28: 19562 (2020).
  34. K. V. Myilswamy*, A. Krishnan*, and M. L. Povinelli, Photonic crystal lightsail with nonlinear reflectivity for increased stability, Optics Express 6: 8223 (2020).
  35. R. Audhkhasi and M. L. Povinelli, Spectral emissivity design using aluminum-based hybrid gratings, Optics Express 6: 8076 (2020).
  36. M. K. Chen, A. M. Morsy, and M. L. Povinelli, Design of VO2-coated silicon microspheres for thermally-regulating paint, Optics Express 27: 21787 (2019).
  37. R. Audhkhasi and M. L. Povinelli, Design of far-field thermal rectifiers using gold-vanadium dioxide micro-gratings, Journal of Applied Physics 126: 063106 (2019).
  38. A. Krishnan and M. L. Povinelli, Tunable, polarization-sensitive, dual guided-resonance modes in photonic crystals, Optics Express 27: 17658 (2019).
  39. A. M. Morsy, R. Biswas, and M. L. Povinelli, High-temperature, experimental thermal memory based on optical resonances in photonic crystal slabs, APL Photonics 4: 010804 (2019).
  40. A. Krishnan, S.-H. Wu, and M. L. Povinelli, Tunable size selectivity and nanoparticle immobilization on a photonic-crystal optical trap, Optics Letters 43: 5399-5402 (2018).
  41. A. M. Morsy, M. L. Povinelli, and J. Hennessy, Highly selective aluminum plasmonic filters on silicon, Optics Express 26: 22650-22657 (2018).
  42. S.-H. Wu, M. Chen, M. T. Barako, V. Jankovic, P. W. C. Hon, L. A. Sweatlock, and M. L. Povinelli, Thermal homeostasis using microstructured phase-change materials, Optica 4: 1390-1396 (2017).
  43. P. D. Anderson, D. K. Koleske, M. L. Povinelli, and G. Subramania, Improving emission uniformity and linearizing band dispersion in nanowire arrays using quasi-aperiodicity, Optical Materials Express, 7: 3634 (2017).
  44. A. M. Morsy, R. Biswas, and M. L. Povinelli, Sequential and selective localized optical heating in water via on-chip dielectric nanopatterning, Optics Express, 25: 17820 (2017).
  45. A. Krishnan, N. Huang, S. H. Wu, L. J. Martinez, and M. L. Povinelli, Enhanced and selective optical trapping in a slot-graphite photonic crystal, Optics Express 24: 23271-23279 (2016).
  46. S.-H. Wu, N. Huang, E. Jaquay, and M. L. Povinelli, Near-field, on-chip optical Brownian ratchets, Nano Letters, 16: 5261-5266 (2016).
  47. Y. Yao, H. Liu, Y. Wang, Y. Li, B. Song, R. P. Wang, M. L. Povinelli, and W. Wu, Nanoimprint-defined, large-area meta-surfaces for unidirectional optical transmission with superior extinction in the visible-to-infrared range, Optics Express 24: 15362-15372 (2016).
  48. R. Biswas and M. L. Povinelli, Sudden, laser-induced heating through silicon nanopatterning, ACS Photonics 2: 1681-1685 (2015).
  49. M. Yao, S. Cong, S. Arab, N. Huang, M. L. Povinelli, S. B. Cronin, P. D. Dapkus, and C. Zhou, Tandem solar cells using GaAs nanowires on Si: Design, fabrication, and observation of voltage addition, Nano Letters 15: 7217-7224 (2015).
  50. S.-H. Wu and M. L. Povinelli, Solar heating of GaAs nanowire solar cells, Optics Express 23: A1363-A1372 (2015).
  51. S.-H. Wu, S. Sankhagowit, R. Biswas, S. Wu, M. L. Povinelli, and N. Malmstadt, Viscoelastic deformation of lipid bilayer vesicles, Soft Matter 11: 7385-7391 (2015).
  52. N. Huang, L. J. Martinez, E. Jaquay, A. Nakano, and M. L. Povinelli, Optical epitaxial growth of gold nanoparticle arrays, Nano Letters 15: 5841-5845 (2015).
  53. S. Arab, P. D. Anderson, C.-Y. Chi, P. D. Dapkus, M. L. Povinelli, and S. B. Cronin, Observation of asymmetric nanoscale optical cavity in GaAs nanosheets, ACS Photonics 2: 1124-1128 (2015).
  54. P. D. Anderson and M. L. Povinelli, Optimized emission in nanorod arrays through quasi-aperiodic inverse design, Optics Letters 40:2672 (2015).
  55. R. Biswas and M. L. Povinelli, Photonic surfaces for designable nonlinear power shaping, Applied Physics Letters 106: 061110 (2015).
  56. N. Huang and M. L. Povinelli, Design of passivation layers on axial junction GaAs nanowire solar cells, IEEE Journal of Photovoltaics 4: 1511 (2014).
  57. E. Jaquay, L. J. Martinez, N. Huang, C. A. Mejia, D. Sarkar, and M. L. Povinelli, Light-assisted, templated self assembly of gold nanoparticle chains, Nano Letters 14: 5184 (2014).
  58. P. D. Anderson, C. Lin, and M. L. Povinelli, Effect of guided resonance modes on emission from GaN core-shell nanorod arrays, Appl. Phys. A. 117: 1879 (2014).
  59. S. Sankhagowit, S.-H. Wu, R. Biswas, C. Riche, M. L. Povinelli, and N. Malmstadt, The dynamics of giant unilamellar vesicle oxidation probed by morphological transitions, Biochimica et Biophysica Acta 1838: 2615 (2014).
  60. S. Arab, P. D. Anderson, M. Yao, C. Zhou, P. D, Dapkus, M. L. Povinelli, and S. B. Cronin, Enhanced Fabry-Perot resonance in GaAs Nanowires through surface passivation and local field enhancement, Nano Research 7: 1146 (2014).
  61. M. Yao, N. Huang, S. Cong, C.-Y. Chi, M. A. Seyedi, Y.-T. Ling, Y. Cao, M. L. Povinelli, P. D. Dapkus, and C. Zhou, GaAs nanowire array solar cells with axial p-i-n junctions, Nano Letters 14: 3293 (2014).
  62. C.-C. Chang, C.-Y. Chi, C.-C. Chen, N. Huang, S. Arab, J. Qiu, M. L. Povinelli, P. D. Dapkus, and S. B. Cronin, Carrier dynamics and doping profiles in GaAs nanosheets, Nano Research, 7: 163 (2014).
  63. L. J. Martínez, N. Huang, J. Ma, C. Lin, E. Jaquay, and M. L. Povinelli, Design and optical characterization of high-Q guided resonant modes in the slot-graphite photonic crystal lattice, Optics Express, 21: 30975 (2013).
  64. C. Lin, L. J. Martínez, and M. L. Povinelli, Fabrication of transferrable, fully-suspended silicon photonic crystal membranes exhibiting vivid structural color and high-Q guided resonance, Journal of Vacuum Science and Technology B, 31: 050606 (2013).
  65. N. Huang, L. J. Martínez, and M. L. Povinelli, Tuning the transmission lineshape of a photonic-crystal slab guided resonance mode by polarization control, Optics Express, 21: 20675 (2013).
  66. C. Lin, L. J. Martínez, and M. L. Povinelli, Experimental broadband absorption enhancement in silicon nanohole structures with optimized complex unit cells, Optics Express, 21: A872 (2013).
  67. M. Solmaz, S. Sankhagowit, R. Biswas, C. A. Mejia, M. L. Povinelli, and N. Malmstadt, Optical stretching as a tool to investigate the mechanical properties of lipid bilayers, RSC Advances, 3: 16632 (2013).
  68. E. Jaquay, L. J. Martínez, C. A. Mejia, and M. L. Povinelli, Light-assisted, templated self assembly using a photonic crystal slab, Nano Letters, 13: 2290 (2013). Correction: doi: 10.1021/acs.nanolett.6b00937.
  69. J. Ma, L. J. Martínez, S. Fan, and M. L. Povinelli, Tight-binding calculation of radiation loss in photonic crystal CROW, Optics Express, 21: 2463 (2013).
  70. N. Huang, C. Lin, and M. L. Povinelli, Limiting efficiencies of tandem solar cells consisting of III-V nanowire arrays on silicon, J. Applied Physics 112: 064321 (2012).
  71. M. E. Solmaz, R. Biswas, S. Sankhagowit, J. R. Thompson, C. A. Mejia, N. Malmstadt, and M. L. Povinelli, Optical stretching of giant unilamellar vesicles with an integrated dual-beam optical trap, Biomedical Optics Express 3: 2419 (2012).
  72. C. A. Mejia, N. Huang, and M. L. Povinelli, Optical trapping of metal-dielectric nanoparticle clusters near photonic-crystal microcavities, Optics Letters 37: 3690 (2012).
  73. C. Chang, C. Chi, M. Yao, N. Huang, C. Chen, J. Theiss, A. W. Bushmaker, S. LaLumondiere, T. Yeh, M. L. Povinelli, C. Zhou, P. D. Dapkus, and S. B. Cronin, Electrical and Optical Characterization of Surface Passivation in GaAs Nanowires, Nano Letters 12: 4484-4489 (2012).
  74. A. Madaria, M. Yao, C. Chi, N. Huang, C. Lin, R. Li, M. L. Povinelli, P. D. Dapkus, and C. Zhou, Toward Optimized Light Utilization in Nanowire Arrays Using Scalable Nanosphere Lithography and Selected Area Growth, Nano Letters 12: 2839-2845 (2012).
  75. J. Ma, L. J. Martínez, and M. L. Povinelli, Optical trapping via guided resonance modes in a Slot-Suzuki-phase photonic crystal lattice, Optics Express 20: 6816-6824 (2012). (Virtual Journal for Biomedical Optics Vol. 7, Issue 2, 2012)
  76. J. Ma and M. L. Povinelli, Applications of Optomechanical Effects for On-chip Manipulation of Light Signals, Current Opinion in Solid State and Materials Science 16: 82-90 (2012).
  77. N. Huang, C. Lin, and M. L. Povinelli, Broadband absorption of semiconductor nanowire arrays for photovoltaic applications, J. Optics 14: 024004 (2012), special issue on Green Photonics.
  78. C. Lin, N. Huang, and M. L. Povinelli, Effect of aperiodicity on the broadband reflection of silicon nanorod structures for photovoltaics, Optics Express 20: A125-A132 (2011).
  79. C. Lin and M. L. Povinelli, Optimal design of aperiodic, vertical silicon nanowire structures for photovoltaics, Optics Express 19: A1148-A1154 (2011).
  80. C. A. Mejia, A. Dutt, and M. L. Povinelli, Light-assisted templated self assembly using photonic crystal slabs, Optics Express 19: 11422-11428 (2011).
  81. J. Ma and M. L. Povinelli, Mechanical Kerr nonlinearities due to bipolar optical forces between deformable silicon waveguides, Optics Express 19: 10102-10110 (2011).
  82. Y. Huo, S. Sandhu, J. Pan, N. Stuhrmann, M. L. Povinelli, J. Kahn, J. Harris, M. Fejer, and S. Fan, Experimental demonstration of two methods for controlling the group delay in a system with photonic-crystal resonators coupled to a waveguide, Opt. Lett. 36: 1482 (2011).
  83. J. Ma and M. L. Povinelli, Effect of periodicity on optical forces between a one-dimensional periodic photonic crystal waveguide and an underlying substrate, Appl. Phys. Lett. 97: 151102 (2010).
  84. J. Pan, Y. Huo, S. Sandhu, N. Stuhrmann, M. L. Povinelli, J. S. Harris, M. M. Fejer, and S. Fan, Tuning the coherent interaction in an on-chip photonic-crystal waveguide-resonator system,  Appl. Phys. Lett. 97: 101102 (2010).
  85. C. Lin and M. L. Povinelli, The effect of plasmonic particles on solar absorption in vertically aligned silicon nanowire arrays,  Appl. Phys. Lett. 97: 071110 (2010).
  86. S. Sandhu, M. L. Povinelli, and S. Fan, Enhanced optical switching with coherent control,  Appl. Phys. Lett. 96: 231108 (2010).
  87. J. Pan, S. Sandhu, Y. Huo, N. Stuhrmann, M. L. Povinelli, J. S. Harris, M. M. Fejer, and S. Fan, Experimental demonstration of an all-optical analogue to the superradiance effect in an on-chip photonic crystal resonator system, Phys. Rev. B. 81: 041101(R) (2010).
  88. C. Lin and M. L. Povinelli, Optical absorption enhancement in silicon nanowire arrays with a large lattice constant for photovoltaic applications, Optics Express 17: 19371-19381 (2009).
  89. V. Liu, M. L. Povinelli, and S. Fan, Resonance-enhanced optical forces between coupled photonic crystal slabs, Optics Express 17: 21897-21909 (2009).
  90. J. Ma and M. L. Povinelli, Large tuning of birefringence in two strip silicon waveguides via optomechanical motion, Optics Express 17: 17818-17828 (2009).
  91. S. Sandhu, M. L. Povinelli, and S. Fan, Overcoming gain-bandwidth product constraint in slow light Raman amplification with the use of light-stopping schemes, Appl. Phys. Lett. 95: 081103 (2009).
  92. C. R. Otey, M. L. Povinelli, and S. Fan, Capturing light pulses into a pair of coupled photonic crystal cavities,  Appl. Phys. Lett. 94: 231109 (2009).
  93. C. R. Otey, M. L. Povinelli, and S. Fan, Capturing light pulses completely using a few dynamic microcavities, J. Lightwave Technology 26: 3784-3793 (2008).
  94. J. Pan, Y. Huo, K. Yamanaka, S. Sandhu, L. Scaccabarozzi, R. Timp, M. L. Povinelli, S. Fan, M. M. Fejer, and J. S. Harris, Aligning microcavity resonances in silicon photonic-crystal slabs using laser-pumped thermal tuning, Appl. Phys. Lett. 92: 103114 (2008).
  95. S. Sandhu, M. L. Povinelli, and S. Fan, Stopping and time-reversing a light pulse using dynamic loss-tuning of coupled-resonator delay lines, Opt. Lett. 32: 3333 (2007).
  96. M. L. Povinelli, Microphotonics: Under pressure (News and Views), Nature Photonics 1:370 (2007).
  97. S. Fan, M. F. Yanik, M. L. Povinelli, and S. Sandhu, Dynamic photonic crystals, Optics and Photonics News 18: 41 (2007).
  98. J.-T. Shen, M. L. Povinelli, S. Sandhu, and S. Fan, Stopping single photons in one-dimensional quantum electrodynamics systems, Phys. Rev. B 75: 035320 (2007).
  99. S. Fan, M. F. Yanik, Z. Wang, S. Sandhu, and M. L. Povinelli, Advances in theory of photonic crystals, Journal of Lightwave Technology 24: 4493-4501 (2006).
  100. M. L. Povinelli and S. Fan, Radiation loss of coupled-resonator waveguides in photonic-crystal slabs, Appl. Phys. Lett. 89: 191114 (2006).
  101. M. L. Povinelli, Slow light: Variable Speed Limit (News and Views), Nature Physics 2: 735-739 (2006).
  102. S. Sandhu, M. L. Povinelli, M. F. Yanik, and S. Fan, Dynamically tuned coupled-resonator delay lines can be nearly dispersion free, Optics Letters 31: 1985-1987 (2006).
  103. Q. Xu, S. Sandhu, M. L. Povinelli, J. Shakya, S. Fan, and M. Lipson, Experimental realization of an on-chip all-optical analogue to electromagnetically induced transparency, Phys. Rev. Lett. 96: 123901 (2006).
  104. M. L. Povinelli, M. Loncar, M. Ibanescu, E. J. Smythe, S. G. Johnson, F. Capasso and J. D. Joannopoulos, Optical evanescent-wave bonding between microphotonic waveguides, Optics Letters 30: 3042-3044 (2005).
  105. M. L. Povinelli, S. G. Johnson, M. Loncar, M. Ibanescu, E. J. Smythe, F. Capasso, and J. D. Joannopoulos, High-Q enhancement of attractive and repulsive optical forces between coupled whispering-gallery-mode resonators, Optics Express 13: 8286-8295 (2005).
  106. M. L. Povinelli, S. G. Johnson, and J. D. Joannopoulos, Slow-light, band-edge waveguides for tunable time delays, Optics Express 13: 7145-7159 (2005).
  107. S. G. Johnson, M. L. Povinelli, M. Soljacic, A. Karalis, S. Jacobs, and J. D. Joannopoulos, Roughness losses and volume-current methods in photonic-crystal waveguides, Appl. Phys. B 81: 283-293 (2005) (Invited).
  108. M. L. Povinelli, M. Ibanescu, S. G. Johnson, and J. D. Joannopoulos, Slow-light enhancement of radiation pressure in an omnidirectional-reflector waveguide, Appl. Phys. Lett. 85: 1466-1468 (2004).
  109. K. C. Huang, M. L. Povinelli, and J. D. Joannopoulos, Negative effective permeability in polaritonic photonic crystals, Appl. Phys. Lett. 85: 543-545 (2004).
  110. M. L. Povinelli, S. G. Johnson, E. Lidorikis, J. D. Joannopoulos, and M. Soljacic, Effect of a photonic band gap on scattering from waveguide disorder, Appl. Phys. Lett. 84:3469-3641 (2004).
  111. L.G. L. Wegener, M. L. Povinelli, A. G. Green, P. P. Mitra, J. B. Stark and P. B. Littlewood, The effect of propagation nonlinearities on the information capacity of WDM optical fiber systems: cross-phase modulation and four-wave mixing, Physica D 189: 81-99 (2004).
  112. M. L. Povinelli, R. E. Bryant, S.Assefa, S. G. Johnson, S. Fan, A. A. Erchak, G. S. Petrich, E. Lidorikis, J. D. Joannopoulos, L. A. Kolodziejski, and E. P. Ippen, Design of a nanoelectromechanical, high-index-contrast, guided-wave optical switch for single-mode operation at 1.55 microns, IEEE Photonics Technology Lett. 15: 1207-1209 (2003).
  113. E. Lidorikis, M. L. Povinelli, S. G. Johnson, and J. D. Joannopoulos, Polarization-Independent Linear Waveguides in 3D Photonic Crystals, Phys. Rev. Lett. 91: 023902 (2003).
  114. M. L. Povinelli, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, Toward photonic-crystal metamaterials: Creating magnetic emitters in photonic crystals, Appl. Phys. Lett. 82: 1069-1071 (2003).
  115. M. L. Povinelli, S. G. Johnson, S. Fan, and J. D. Joannopoulos, Emulation of two-dimensional photonic crystal defect modes in a photonic crystal with a three-dimensional photonic band gap, Phys. Rev. B 64: 075313 (2001).
  116. M. L. Povinelli, S. N. Coppersmith, L. P. Kadanoff, S. R. Nagel, and S. C. Venkataramani, Noise stabilization of self-organized memories, Phys. Rev. E 59: 4970-4982 (1999).
  117. E. R. Nowak, J. B. Knight, M. L. Povinelli, H. M. Jaeger, and S. R. Nagel, Reversibility and irreversibility in the packing of vibrated granular material, Powder Technology 94: 79-83 (1997).
  118. M. L. Povinelli, S. A. Korpela, and A. Chait, Solute boundary-layer on a rotating crystal, J. Cryst. Growth 144: 103-106 (1994).

    Patents

    1. M. L. Povinelli, Steven G. Johnson, and J. D. Joannopoulos, Photonic Crystals as Metamaterials, US Patent 7,177,513.
    2. E. Lidorikis, M. L. Povinelli, S. G. Johnson, and J. D. Joannopoulos, Polarization-Independent Linear Waveguides in 3D Photonic Crystals, US Patent 7,058,242.
    3. Steven G. Johnson, M. L. Povinelli, and J. D. Joannopoulos, 3D-Periodic Dielectric Layered Structure with Omnidirectional Band Gap, US Patent 6,597,851.

    University of Southern California
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