Publications

  1. Pengning Chao, Benjamin Strekha, Rodrick K. Defo, Sean Molesky, and Alejandro W. Rodriguez. Physical limits on electromagnetic responsearXiv:2109.05667, 2021. [ http | .pdf ]
  2. Sean Molesky, Pengning Chao, Jewel Mohajan, Wesley Reinhart,  Heng Chi, and Alejandro W. Rodriguez. T-operator limits on optical communication: metaoptics, computation, and input-output transformationsarXiv:2102.10175, 2021. [ http | .pdf ]
  3. Sean Molesky, Pengning Chao, and Alejandro W. Rodriguez. Hierarchical mean-field T operator bounds on electromagnetic scattering: Upper bounds on near-field radiative Purcell enhancementPhys. Rev. Research, 2(043398), 2020. [ http | .pdf ]
  4. S. Chakravarthi, S. Chao, C. Pederson, S. Molesky, F. Hatami, A. W. Rodriguez, and K-M C. Fu. Inverse-designed photon extractors for optically addressable defect qubitsOptica 7(2) 1805–1811,  2020. [ http | .pdf ]
  5. S. A. Biehs, R. Messina, P. S. Venkataram, A. W. Rodriguez, J. C. Cuevas, and P. Ben-Abdallah. Near-field radiative heat transfer in many-body systemsRev. Mod. Phys., 93:025009, 2021. [ http | .pdf ]
  6. Prashanth S. Venkataram, Sean Moleksy, Juan Carlos Cuevas, and Alejandro W. Rodriguez. Channel-based algebraic limits to conductive heat transferPhysical Review B, 102:085405, 2020. [ http | .pdf ]
  7. Prashanth S. Venkataram, Riccardo Messina, Juan Carlos Cuevas, and Philippe Ben-Abdallah. Mechanical relations between conductive and radiative heat transferPhysical Review B, 102:085404, 2020. [ http | .pdf ]
  8. P. S. Venkataram, J. Hermann, A. Tkatchenko, and Alejandro W. Rodriguez. Fluctuational Electrodynamics in Atomic and Macroscopic Systems: van der Waals Interactions and Radiative Heat TransferPhysical Review B, 102:085403, 2020. [ http | .pdf ]
  9. Q. Shen, W. Jin, G. Yang, Alejandro W. Rodriguez, and Maiken H. Mikkelsen. Active control of multiple simultaneous nonlinear optical processes in plasmonic nanogap cavitiesACS Photonics, 7(4):901-907, 2020. [ http ]
  10. Sean Molesky, Pengning Chao, Weiliang Jin, and Alejandro W. Rodriguez. Global T operator bounds on electromagnetic scattering: upper bounds on far-field cross sectionsPhysical Review Research, 2:033172, 2020. [ http | .pdf ]
  11. Prashanth S. Venkataram, Sean Molesky, Pengning Chao, and Alejandro W. Rodriguez. Fundamental limits to attractive and repulsive Casimir–Polder forces. Physical Review A101 052115, 2020. [ http | .pdf ]
  12. Chinmay Khandekar, Liping Yang, Alejandro W. Rodriguez, and Zubin Jacob. Quantum nonlinear mixing of thermal photons to surpass the blackbody limitOptics Express, 28:2045--2059, 2020. [ http | .pdf ]
  13. Prashanth S. Venkataram, Sean Molesky, Weiliang Jin, and Alejandro W. Rodriguez. Fundamental limits to radiative heat transfer: the limited role of nanostructuring in the near fieldPhysical Review Letters, 124:013904, 2020. [ http | .pdf ]
  14. Sean Molesky, Weiliang Jin, Prashanth S. Venkataram, and Alejandro W. Rodriguez. T operator bounds on angle-integrated absorption and thermal radiation for arbitrary objectsPhysical Review Letters, 123:257401, 2019. [ http | .pdf ]
  15. Sean Molesky, Prashanth S. Venkataram, Weiliang Jin, and Alejandro W. Rodriguez. Fundamental limits to radiative heat transfer: theoryPhysical Review B, 101:035408, 2020. [ http | .pdf ]
  16. Prashanth S. Venkataram, Jan Hermann, Teerit J. Vongkovit, Alexandre Tkatchenko, and Alejandro W. Rodriguez. Impact of nuclear vibrations on van der Waals and Casimir interactions at zero and finite temperature. Science Advances, 5(11), 2019. [ http | .pdf ]
  17. Moein Malekakhlagh and Alejandro W. Rodriguez. Quantum rabi model with two-photon relaxation. Physical Review Letters, 122:043601, 2019. [ http | .pdf ]
  18. Weiliang Jin, Sean Molesky, Zin Lin, and Alejandro W. Rodriguez. Material scaling and frequency-selective enhancement of near-field radiative heat transfer for lossy metals in two dimensions via inverse designPhysical Review B (Rapid Comm.), 99:041403, 2019. [ http | .pdf ]
  19. Alan D. Logan, Michael Gould, Emma R. Schmidgall, Karine Hestroffer, Zin Lin, Weiliang Jin, Arka Majumdar, Fariba Hatami, Alejandro W. Rodriguez, and Kai-Mei C. Fu. 400%/W second harmonic conversion efficiency in 14 μm-diameter gallium phosphide-on-oxide resonatorsOptics Express, 26(26):33687--33699, 2018. [ http | .pdf ]
  20. P. S. Venkataram, Jan Hermann, Tkatchenko, and Alejandro W. Rodriguez. Phonon-polariton mediated thermal radiation and heat transfer among molecules and macroscopic bodies: nonlocal electromagnetic response at mesoscopic scales. Physical Review Letters, 121:045901, 2018. [ http | .pdf ]
  21. Weiliang Jin, Sean Molesky, Zin Lin, and Alejandro W. Rodriguez. Inverse design of compact multi-mode cavity couplers. Optics Express, 26 (20) 26713, 2018. [ http | .pdf ]
  22. Sean Molesky, Zin Lin, Weiliang Jin, Alexander Piggott, Jelena Vuckovic, and Alejandro W. Rodriguez. Inverse Design in Nanophotonics. Nature Photonics, 12 659--670, 2018. [ http | .pdf ]
  23. Chawin Sitawarin, Weiliang Jin, Zin Lin, and Alejandro W. Rodriguez. Inverse-designed photonic fibers and metasurfaces for nonlinear frequency conversion. Photonics Research, 6(5):82--89, 2018. [ http | .pdf ]
  24. Zin Lin, Benedikt Groever, Federico Capasso, Alejandro W. Rodriguez, and Marko Loncar. Topology optimized multilayered meta-optics. Physical Review Applied, 9:044030, 2018. [ http | .pdf ]
  25. Zin Lin, Chsitakis Lysander, Yang Li, Eric Mazur, Alejandro W. Rodriguez, and Marko Loncar. Topology-optimized dual-polarization Dirac cones. Physical Review B (Rapid Comm.), 97:081408, 2018. [ http | .pdf ]
  26. Chinmay Khandekar, Riccardo Messina, and Alejandro W. Rodriguez. Near-field refrigeration and tunable heat exchange through four-wave mixing. AIP Advances, 8:055029, 2018. [ http | .pdf ]
  27. M. T. H Reid, O. D. Miller, A. Polimeridis, Alejandro W. Rodriguez, E. M. Tomlinson, and Steven G. Johnson. Photon torpedoes and Rytov pinwheels: integral-equation modeling of non-equilibrium fluctuation-induced forces and torques on nanoparticles. arXiv:1708.01985, 2017. [ http | .pdf ]
  28. Adi Pick, Zin Lin, Weiliang Jin, and Alejandro W. Rodriguez. Enhanced nonlinear frequency conversion and Purcell enhancement at exceptional points. Physical Review B, 96:224303, 2017. [ http | .pdf ]
  29. Ivan Latella, Svend-Age Biehs, Riccardo Messina, Alejandro W. Rodriguez, and Philippe Ben-Abdallah. Ballistic near-field heat transport in dense many-body systems. Physical Review B, 97:035423, 2017. [ http | .pdf ]
  30. Chinmay Khandekar and Alejandro W. Rodriguez. Thermal bistability through coupled photonic resonances. Applied Physics Letters, 111:083104, 2017. [ http | .pdf ]
  31. Chinmay Khandekar and Alejandro W. Rodriguez. Near-field thermal upconversion through a Kerr medium. Optics Express, 25(19):23164--23180, 2017. [ http | .pdf ]
  32. Weiliang Jin, Riccardo Messina, and Alejandro W. Rodriguez. Overcoming limits to near-field radiative heat transfer in uniform planar media through multilayer optimization. Optics Express, 25(13):293277, 2017. [ http | .pdf ]
  33. Prashanth Venkataram, Jan Hermann, Alexander Tkatchenko, and Alejandro W. Rodriguez. Unifying microscopic and continuum treatments of van der Waals and Casimir interactions. Physical Review Letters, 118:266802, 2017. [ http | .pdf ]
  34. L. Tang, M. Wang, C. Y. Ng, M. Nikolic, C. T. Chan, A. W. Rodriguez, and H. B. Chan. Measurement of non-monotonic Casimir forces between silicon nanostructures. Nature Photonics (Advanced Online Publication), 11:97--101, 2017. Nature Photonics News and Views: http://www.nature.com/nphoton/journal/v11/n2/pdf/nphoton.2016.277.pdf. [ http | .pdf ]
  35. Konstantin Klopstech, Nils Konne, Svend-Age Biehs, Alejandro W. Rodriguez, Ludwig Worbes, David Hellmann, and Achim Kittel. Giant heat transfer in the crossover regime between conduction and radiation. Nature Communications, 8(14475), 2017. [ http | .pdf ]
  36. Weiliang Jin, Riccardo Messina, and Alejandro W. Rodriguez. General formulation of coupled radiative and conductive heat transfer between compact bodies. Physical Review B (Rapid Comm.), 95:161409, 2017. [ http | .pdf ]
  37. Adi Pick, Bo Zhen, Owen D. Miller, C. W. Hsu, F. Hernandez, Alejandro W. Rodriguez, Marin Soljacic, and Steven G. Johnson. General theory of spontaneous emission near exceptional points. Optics Express, 25(11):12325--12348, 2017. [ http | pdf ]
  38. Zin Lin, Marco Loncar, and Alejandro W. Rodriguez. Topology optimization of multitrack ring resonators and 2d microcavities for nonlinear frequency conversion. Optics Letters, 42(14):2818--2822, 2016. [ http | .pdf ]
  39. Ricardo Messina, Weiliang Jin, and Alejandro W. Rodriguez. Exact formulas for radiative heat transfer between planar bodies under arbitrary temperature profiles: modified asymptotics and sign-flip transitions. Physical Review B, 94:205438, 2016. [ http | .pdf ]
  40. Zin Lin, Adi Pick, Marko Loncar, and Alejandro W. Rodriguez. Enhanced spontaneous emission at third-order Dirac exceptional points in inverse-designed photonic crystals. Physical Review Letters, 117:107402, 2016. On the cover: http://journals.aps.org/prl/issues/117/10. [ http | .pdf ]
  41. Prashanth Venkataram, Jeremy Whitton, and Alejandro W. Rodriguez. Non-additivity of van der Waals forces on liquid surfaces. Physical Review E (Rapid Comm.), 94:030801, 2016. [ http | .pdf ]
  42. Riccardo Messina, Weiliang Jin, and Alejandro W. Rodriguez. Strongly coupled radiative and conductive heat transfer between planar objects. Physical Review B (Rapid Comm.), 94:121410, 2016. [ http | .pdf ]
  43. Chinmay Khandekar, Weiliang Jin, O. D. Miller, Adi Pick, and Alejandro W. Rodriguez. Giant frequency-selective near-field heat transfer in active--passive structures. Physical Review B, 94:115402, 2016. [ http | .pdf ]
  44. Weiliang Jin, Chinmay Khandekar, Adi Pick, Athanasios G. Polimeridis, and Alejandro W. Rodriguez. Amplified and directional spontaneous emission from arbitrary composite bodies: self-consistent treatment of Purcell effect below threshold. Physical Review B, 93:125415, 2016. [ http | .pdf ]
  45. Lilia Woods, D. A. R. Dalvit, A. Tkatchenko, Rodriguez-Lopez P., A. W. Rodriguez, and R. Podgornik. A Materials Perspective on Casimir and van der Waals Interactions. Reviews of Modern Physics, 88:045003, 2016. [ http | .pdf ]
  46. Weiliang Jin, Athanasios G. Polimeridis, and Alejandro W. Rodriguez. Temperature control of thermal radiation from composite bodies. Physical Review B (Rapid Comm.), 93:121403, 2016. [ http | .pdf ]
  47. Zin Lin, Xiangdong Liang, Marko Loncar, Steven G. Johnson, and Alejandro W. Rodriguez. Cavity-enhanced second harmonic generation via nonlinear-overlap optimization. Optica, 3(3):233--238, 2016. [ http | .pdf ]
  48. Bhavin J. Shastri, Mitchell A. Nahmias, Alexander N. Tait, Alejandro W. Rodriguez, Ben Wu, and Paul R. Prucnal. Spike processing with a graphene excitable laser. Scientific Reports, 6:19126, 2015. [ http ]
  49. Athanasios G. Polimeridis, M. T. H. Reid, Weiliang Jin, Steven G. Johnson, Jacob K. White, and Alejandro W. Rodriguez. Fluctuating volume--current formulation of electromagnetic fluctuations in inhomogeneous media: incandescence and luminescence in arbitrary geometries. Physical Review B, 92:134202, 2015. [ http | .pdf ]
  50. Zin Lin, S. G. Johnson, A. W. Rodriguez, and M. Loncar. Design of diamond microcavities for single-photon frequency down-conversion. Optics Express, 23(19):25279--25294, 2015. [ http ]
  51. Chinmay Khandekar, Zin Lin, and Alejandro W. Rodriguez. Thermal radiation from optically driven Kerr photonic cavities. Applied Physics Letters, 106:151109, 2015. [ http | .pdf ]
  52. Owen D. Miller, Steven G. Johnson, and Alejandro W. Rodriguez. Shape-independent limits to near-field radiative heat transfer. Physical Review Letters, 115:204302, 2015. Editors Suggestion and Physics Viewpoint: http://physics.aps.org/articles/v8/109. [ http | .pdf ]
  53. Adi Pick, A. Cerjan, D. Liu, A. W. Rodriguez, A. D. Stone Stone, Y. D. Chong, and Steven G. Johnson. Ab-initio multimode linewidth theory for arbitrary inhomogeneous laser cavities. Physical Review A, 91:063806, 2015. [ http ]
  54. Chinmay Khandekar, Adi Pick, Steven G. Johnson, and Alejandro W. Rodriguez. Radiative heat transfer in nonlinear Kerr media. Physical Review B, 91:115406, 2015. [ http | .pdf ]
  55. Athanasios G. Polimeridis, M. T. Homer Reid, Steven G. Johnson, Jacob K. White, and Alejandro W. Rodriguez. On the computation of power in volume integral equation formulations. IEEE Trans. Antennas Prop., 63(2):611--620, 2015. [ http | .pdf ]
  56. Alejandro W. Rodriguez, Pui Chuen Hui, David N. Woolf, Steven G. Johnson, Marko Loncar, and Federico Capasso. Classical and fluctuation-induced electromagnetic interactions in micronscale systems: designer bonding, antibonding, and Casimir forces. Annalen der Physik, 527(1):45--80, 2014. [ .pdf ]
  57. Lulu Liu, Alexander P. Woolf, Alejandro W. Rodriguez, and Federico Capasso. Absolute Position Total Internal Reflection Microscopy with an Optical Tweezer. Proceedings of the National Academy of Sciences, 111(52):5609--5615, 2014. [ http | .pdf ]
  58. Wiktor Walasik, Alejandro W. Rodriguez, and Gilles Renversez. Symmetric metal slot waveguides with nonlinear dielectric core: bifurcations, size effects, and higher order modes. Plasmonics, pages 1557--1963, 2014. [ http ]
  59. Owen Miller, Steven G. Johnson, and Alejandro W. Rodriguez. Effectiveness of thin films in lieu of hyperbolic metamaterials in the near field. Physical Review Letters, 112(15):157402, 2014. [ http | .pdf ]
  60. Steven G. Johnson, A. P. McCauley, and Alejandro Rodriguez-Wong. Computation and visualization of photonic quasicrystal spectra. In Luca Dal Negro, editor, Optics of Aperiodic Structures: Fundamentals and Device Applications, chapter 11, pages 451--489. Pan Stanford Publishing, Singapore, 2014. [ DOI | .html ]
  61. Zin Lin, Tomas Alcorn, Marko Loncar, Steven G. Johnson, and Alejandro W. Rodriguez. High-efficiency degenerate four-wave mixing in triply resonant nanobeam cavities. Physical Review A, 89:05839, 2013. [ http | .pdf ]
  62. Bo Zhen, Song-Liang Chua, Jeongwon Lee, Alejandro W. Rodriguez, Xiangdong Liang, Steven G. Johnson, John D. Joannopoulos, Marin Soljacic, and Ofer Shapira. Enabling enhanced emission and low threshold lasing of organic molecules using special Fano resonances of macroscopic photonic crystals. Proceedings of the National Academy of Sciences, 110(34):13711--13716, 2013. Cover. [ http ]
  63. Alejandro W. Rodriguez, M. T. Homer Reid, Francesco Intravaia, Alexander Woolf, Diego A. R. Dalvit, Federico Capasso, and Steven G. Johnson. Geometry-induced Casimir suspension of oblate bodies in fluids. Physical Review Letters, 111:180402, 2013. [ http | .pdf ]
  64. Pui-Chuen Hui, David Woolf, Eiji Iwase, Young-Ik Sohn, Daniel Ramos, Mughees Khan, Alejandro W. Rodriguez, Steven G. Johnson, Federico Capasso, and Marko Loncar. Optical bistability with a repulsive optical force in coupled silicon photonic crystal membranes. Applied Physics Letters, 103(2):021102, 2013. [ http | .pdf ]
  65. Alejandro W. Rodriguez, M. T. Homer Reid, and Steven G. Johnson. Fluctuating surface-current formulation of radiative heat transfer for arbitrary geometries: theory and applications. Physical Review B, 88(5):054305, 2013. [ http | .pdf ]
  66. David N. Woolf, Pui-Chuen Hui, Eiji Iwase, Mughees Khan, Alejandro W. Rodriguez, Parag Deotare, Irfan Bulu, Steven G. Johnson, Federico Capasso, and Marko Loncar. Optomechanical and photothermal interactions in suspended photonic crystal membranes. Optics Express, 21(6):7258--7275, 2013. [ http | .pdf ]
  67. J. Zhou, Z. Marcet, A. W. Rodriguez, M. T. H. Reid, A. P. McCauley, I. I. Kravchenko, T. Lu, Y. Bao, S. G. Johnson, and H. B. Chan. Casimir forces on a micromechanical silicon chip. Nature Communications, 4:1845, 2013. [ .html | .pdf ]
  68. Alejandro W. Rodriguez, M. T. Homer Reid, Jaime Varela, John D. Joannopoulos, Federico Capasso, and Steven G. Johnson. Anomalous near-field heat transfer between a cylinder and a perforated surface. Physical Review Letters, 110(1):014301, 2013. [ http | .pdf ]
  69. M. T. Homer Reid, Alejandro W. Rodriguez, and Steven G. Johnson. Fluctuation-induced phenomena in nanoscale systems: harnessing the power of noise. Proc. IEEE, 101(2):531--545, 2013. [ http | .pdf ]
  70. Alejandro W. Rodriguez, M. T. H. Reid, and Steven G. Johnson. Fluctuating surface-current formulation of radiative heat transfer for arbitrary geometries. Physical Review B (Rapid Comm.), 86(22):220302, 2012. [ http | .pdf ]
  71. Evan J. Reed, Alejandro W. Rodriguez, M. Riad Manaa, Laurence E. Fried, and Craig Traver. Ultrafast detonation of hydrazoic acid (HN3). Physical Review Letters, 109:038301, 2012. [ http | .pdf ]
  72. Eiji Iwase, Pui-Chuen Hui, David Woolf, Alejandro W. Rodriguez, Steven G. Johnson, Federico Capasso, and Marko Loncar. Control of buckling in large micromembranes using engineered support structures. J. Micromech. Microeng., 22(6), 2012. [ http | .pdf ]
  73. Zhuan-Fang Bi, Alejandro W. Rodriguez, Hila Hashemi, David Duchesne, Marko Loncar, Ke-Ming Wang, and Steven G. Johnson. High-efficiency second-harmonic generation in doubly-resonant χ(2) microring resonators. Optics Express, 20(7):7526--7543, 2012. [ http | .pdf ]
  74. Alejandro W. Rodriguez, Ognjen Ilic, Peter Bermel, Ivan Celanovic, J. D. Joannopoulos, Marin Soljacic, and Steven G. Johnson. Frequency-selective near-field enhancement of radiative heat transfer via photonic-crystal slabs: a general computational approach for arbitrary geometries and materials. Physical Review Letters, 107:114301, 2011. [ http | .pdf ]
  75. Alexander P. McCauley, Alejandro W. Rodriguez, M. T. Homer Reid, and Steven G. Johnson. Casimir repulsion beyond the dipole regime. arXiv:1105.0404, 2011. [ http | .pdf ]
  76. Alejandro W. Rodriguez, Federico Capasso, and Steven G. Johnson. The Casimir effect in microstructured geometries. Nature Photonics, 5:211--221, 2011. Invited paper. [ .html ]
  77. Alejandro W. Rodriguez, David Woolf, Pui-Chuen Hui, Eiji Iwase, Alexander P. McCauley, Federico Capasso, Marko Loncar, and Steven G. Johnson. Designing evanescent interactions to control the expression of Casimir forces in optomechanical structures. Applied Physics Letters, 98(19):194105, 2011. Invited paper to Virtual Journal of Nanoscale Science and Technology, May 23, 2011. [ http | .pdf ]
  78. Jaime Varela, Alejandro W. Rodriguez, Alexander P. McCauley, and Steven G. Johnson. Casimir microsphere diclusters and three-body effects in fluids. Physical Review A, 83:042516, 2011. [ http | .pdf ]
  79. Kai Pan, Alexander P. McCauley, Alejandro W. Rodriguez, M. T. Homer Reid, Jacob K. White, and Steven G. Johnson. Calculation of nonzero-temperature Casimir forces in the time domain. Physical Review A (Rapid Comm.), 83:040503, 2011. [ http | .pdf ]
  80. Alejandro W. Rodriguez, Alexander P. McCauley, Pui-Chuen Hui, David Woolf, Federico Capasso, Marko Loncar, and Steven G. Johnson. Bonding, antibonding and tunable restoring optical forces in asymmetric membranes. Optics Express, 19(3):2225--2241, 2011. [ http | .pdf ]
  81. David Ramirez, Alejandro W. Rodriguez, Hila Hashemi, John D. Joannopoulos, Marin Soljacic, and Steven G. Johnson. Degenerate four-wave mixing in triply-resonant nonlinear Kerr cavities. Physical Review A, 83:033834, 2011. [ http | .pdf ]
  82. Alexander P. McCauley, F. S. S. Rosa, Alejandro W. Rodriguez, J. D. Joannopoulos, D. A. R. Davlit, and Steven G. Johnson. Structural anisotropy and orientation-induced Casimir repulsion in fluids. Physical Review A, 83:052503, 2011. [ http | .pdf ]
  83. Alexander P. McCauley, Rongkuo Zhao, M. T. Homer Reid, Alejandro W. Rodriguez, Juangfeng Zhuo, F. S. S. Rosa, J. D. Joannopoulos, D. A. R. Dalvit, Costas M. Soukoulis, and Steven G. Johnson. Microstructure effects for Casimir forces in chiral metamaterials. Physical Review B, 82:165108, 2010. [ http | .pdf ]
  84. Alejandro W. Rodriguez, David Woolf, Alexander P. McCauley, Federico Capasso, and Steven G. Johnson. Achieving a strongly temperature-dependent Casimir effect. Physical Review Letters, 105:060401, 2010. [ http | .pdf ]
  85. Michael Levin, Alexander P. McCauley, Alejandro W. Rodriguez, Homer H. T. Reid, and Steven G. Johnson. Casimir repulsion between metallic objects in vacuum. Physical Review Letters, 105(9):090403, 2010. [ http | .pdf ]
  86. Alejandro W. Rodriguez, Alexander P. McCauley, David Woolf, Federico Capasso, J. D. Joannopoulos, and Steven G. Johnson. Non-touching nanoparticle diclusters bound by repulsive and attractive Casimir forces. Physical Review Letters, 104(16):160402, 2010. [ http | .pdf ]
  87. Jorge Bravo-Abad, Alejandro W. Rodriguez, J. D. Joannopoulos, P. T. Rakich, Steven G. Johnson, and Marin Soljacic. Efficient low-power terahertz generation via on-chip triply resonant nonlinear frequency mixing. Applied Physics Letters, 96:101110, 2010. [ http | .pdf ]
  88. Alexander P. McCauley, Alejandro W. Rodriguez, J. D. Joannopoulos, and Steven G. Johnson. Casimir forces in the time domain: Applications. Physical Review A, 81(1):012119, 2010. [ http | .pdf ]
  89. Alejandro W. Rodriguez, Alexander P. McCauley, J. D. Joannopoulos, and Steven G. Johnson. Theoretical ingredients of a Casimir analog computer. Proceedings of the National Academy of Sciences, 107:9531--9536, 2010. [ http | .pdf ]
  90. Ian Burgess, Yinan Zhang, Murray McCutcheon, Alejandro W. Rodriguez, Jorge Bravo-Abad, Steven G. Johnson, and Marko Loncar. Design and efficient terahertz source using triply-resonant nonlinear photonic crystal cavities. Optics Express, 17(22):20099--20108, 2009. [ http | .pdf ]
  91. Homer Reid, Alejandro W. Rodriguez, Jacob White, and Steven G. Johnson. Efficient computation of Casimir interactions between arbitrary three-dimensional objects. Physical Review Letters, 103(4):040401, 2009. Invited paper to Virtual Journal of Nanoscale Science and Technology, August 3, 2009. [ http | .pdf ]
  92. Alejandro W. Rodriguez, Alexander P. McCauley, J. D. Joannopoulos, and Steven G. Johnson. Casimir forces in the time domain: Theory. Physical Review A, 80(1):012115, 2009. [ http | .pdf ]
  93. Ian Burgess, Alejandro W. Rodriguez, Murray McCutcheon, Jorge Bravo-Abad, Yinan Zhang, Steven G. Johnson, and Marko Loncar. Difference-frequency generation with quantum-limited efficiency in triply-resonant nonlinear cavities. Optics Express, 17(11):9241--9251, 2009. [ http | .pdf ]
  94. Alejandro W. Rodriguez, Jeremy Munday, Diego Dalvit, Federico Capasso, J. D. Joannopoulos, and Steven G. Johnson. Stable suspension and dispersion-induced transitions from repulsive Casimir forces between fluid-separated cylinders. Physical Review Letters, 101(19):190404, 2008. [ http | .pdf ]
  95. Hila Hashemi, Alejandro W. Rodriguez, John D. Joannopoulos, Marin Soljačić, and Steven G. Johnson. Nonlinear harmonic generation and devices in doubly-resonant Kerr cavities. Physical Review A, 79(1):013812, 2008. [ http | .pdf ]
  96. Alejandro W. Rodriguez, John D. Joannopoulos, and Steven G. Johnson. Repulsive and attractive Casimir forces in a glide-symmetric geometry. Physical Review A, 77(6):062107, 2008. Invited paper to Virtual Journal of Nanoscale Science and Technology, June 30, 2008. [ http | .pdf ]
  97. Sahand J. Rahi, Alejandro W. Rodriguez, Thorsten Emig, Robert L. Jaffe, Steven G. Johnson, and Mehran Kardar. Nonmonotonic effects of parallel sidewalls on Casimir forces between cylinders. Physical Review A (Rapid Comm.), 77(3):030101, 2008. [ http | .pdf ]
  98. Alejandro W. Rodriguez, Alexander McCauley, Yehuda Avniel, and Steven G. Johnson. Computation and visualization of photonic quasicrystal spectra via Bloch's theorem. Physical Review B, 77(10):104201, 2008. [ http | .pdf ]
  99. Saad Zaheer, Alejandro W. Rodriguez, Steven G. Johnson, and Robert L. Jaffe. Optical-approximation analysis of sidewall-spacing effects on the force between two squares with parallel sidewalls. Physical Review A, 76(6):063816, 2007. [ http | .pdf ]
  100. Jorge Bravo-Abad, Alejandro Rodriguez, Peter Bermel, Steven G. Johnson, J. D. Joannopoulos, and Marin Soljačić. Enhanced nonlinear optics in photonic-crystal nanocavities. Optics Express, 15(24):16161--16176, 2007. (Invited Paper). [ http | .pdf ]
  101. Peter Bermel, Alejandro Rodriguez, J. D. Joannopoulos, and Marin Soljačić. Tailoring optical nonlinearities via the Purcell effect. Physical Review Letters, 99(5):53601, 2007. Virtual Journal of Nanoscale Science and Technology, August 20, 2007. [ http | .pdf ]
  102. Alejandro Rodriguez, Mihai Ibanescu, Davide Iannuzzi, J. D. Joannopoulos, and Steven G. Johnson. Virtual photons in imaginary time: computing exact Casimir forces via standard numerical-electromagnetism techniques. Physical Review A, 76(3):032106, 2007. [ http | .pdf ]
  103. Alejandro Rodriguez, Mihai Ibanescu, Davide Iannuzzi, Federico Capasso, J. D. Joannopoulos, and Steven G. Johnson. Computation and visualization of Casimir forces in arbitrary geometries: non-monotonic lateral-wall forces and failure of proximity force approximations. Physical Review Letters, 99(8):80401, 2007. [ http | .pdf ]
  104. Alejandro Rodriguez, Marin Soljačić, J. D. Joannopoulos, and Steven G. Johnson. χ(2) and χ(3) harmonic generation at a critical power in inhomogeneous doubly resonant cavities. Optics Express, 15(12):7303--7318, 2007. [ http | .pdf ]
  105. Peter Bermel, Alejandro Rodriguez, Steven G. Johnson, J. D. Joannopoulos, and Marin Soljačić. Single-photon all-optical switching using waveguide-cavity QED. Physical Review A, 74:043818, 2006. [ http | .pdf ]
  106. Ardavan Farjadpour, David Roundy, Alejandro Rodriguez, Mihai Ibanescu, Peter Bermel, G. Burr, J. D. Joannopoulos, and Steven G. Johnson. Improving accuracy by sub-pixel smoothing in the finite-difference time domain. Optics Letters, 31:2972--2974, 2006. Also published in Proc. SPIE, 6322:63220G, 2006. [ http | .pdf ]
  107. Ofer Shapira, Ken Kuriki, Nicholas D. Orf, Ayman F. Abouraddy, Gilles Benoit, Jean F. Viens, Alejandro Rodriguez, Mihai Ibanescu, J. D. Joannopoulos, and Yoel Fink. Surface-emitting fiber lasers. Optics Express, 14(9):3929--3935, 2006. [ http | .pdf ]
  108. Alejandro Rodriguez, Mihai Ibanescu, J. D. Joannopoulos, and Steven G. Johnson. Disorder-immune confinement of light in photonic crystal cavities. Optics Letters, 30:3192--3194, 2005. Invited paper to Virtual Journal of Nanoscale Science and Technology, Sept. 9, 2006. [ http | .pdf ]