Search Advanced Filters Keyword - Any -FOS: Physical sciencesFOS: Physical sciencesFour wave mixingMaterials Science (cond-mat.mtrl-sci)Photonic crystalsRaman scatteringRing resonatorsSecond harmonic generationWhispering gallery modes AuthorTitleTypeYear DescendingAscending 121 Publications Rodriguez AW, McCauley AP, Joannopoulos JD, Johnson SG. 2010. Theoretical ingredients of a Casimir analog computer. PNAS. 107:9531–9536. Referenced from www.pnas.org: Theoretical ingredients of a Casimir analog computer. Rodriguez AW, Woolf D, McCauley AP, Capasso F, Johnson SG. 2010. Achieving a strongly temperature-dependent Casimir effect. PRL. 105:060401. Referenced from prl.aps.org: Achieving a strongly temperature-dependent Casimir effect. Burgess I, Zhang Y, McCutcheon M, Rodriguez AW, Bravo-Abad J, Johnson SG, Loncar M. 2009. Design and efficient terahertz source using triply-resonant nonlinear photonic crystal cavities. OE. 17:20099–20108. Referenced from www.opticsinfobase.org: Design and efficient terahertz source using triply-resonant nonlinear photonic crystal cavities. Burgess I, Rodriguez AW, McCutcheon M, Bravo-Abad J, Zhang Y, Johnson SG, Loncar M. 2009. Difference-frequency generation with quantum-limited efficiency in triply-resonant nonlinear cavities. OE. 17:9241–9251. Referenced from www.opticsinfobase.org: Difference-frequency generation with quantum-limited efficiency in triply-resonant nonlinear cavities. Reid H, Rodriguez AW, White J, Johnson SG. 2009. Efficient computation of Casimir interactions between arbitrary three-dimensional objects. PRL. 103:040401. Referenced from link.aps.org: Efficient computation of Casimir interactions between arbitrary three-dimensional objects. Rodriguez AW, McCauley AP, Joannopoulos JD, Johnson SG. 2009. Casimir forces in the time domain: Theory. PRA. 80:012115. Referenced from link.aps.org: Casimir forces in the time domain: Theory. Hashemi H, Rodriguez AW, Joannopoulos JD, Soljacic M, Johnson SG. 2008. Nonlinear harmonic generation and devices in doubly-resonant Kerr cavities. Physical Review A. 79:013812. Referenced from link.aps.org: Nonlinear harmonic generation and devices in doubly-resonant Kerr cavities. Rahi SJ, Rodriguez AW, Emig T, Jaffe RL, Johnson SG, Kardar M. 2008. Nonmonotonic effects of parallel sidewalls on Casimir forces between cylinders. PRA-rapid. 77:030101. Referenced from link.aps.org: Nonmonotonic effects of parallel sidewalls on Casimir forces between cylinders. Rodriguez AW, Munday J, Dalvit D, Capasso F, Joannopoulos JD, Johnson SG. 2008. Stable suspension and dispersion-induced transitions from repulsive Casimir forces between fluid-separated cylinders. PRL. 101:190404. Referenced from link.aps.org: Stable suspension and dispersion-induced transitions from repulsive Casimir forces between fluid-separated cylinders. Rodriguez AW, Joannopoulos JD, Johnson SG. 2008. Repulsive and attractive Casimir forces in a glide-symmetric geometry. PRA. 77:062107. Referenced from link.aps.org: Repulsive and attractive Casimir forces in a glide-symmetric geometry. Rodriguez AW, McCauley A, Avniel Y, Johnson SG. 2008. Computation and visualization of photonic quasicrystal spectra via Bloch s theorem. PRB. 77:104201. Referenced from link.aps.org: Computation and visualization of photonic quasicrystal spectra via Bloch s theorem. Bermel P, Rodriguez A, Joannopoulos JD, Soljacic M. 2007. Tailoring optical nonlinearities via the Purcell effect. PRL. 99:53601. Referenced from link.aps.org: Tailoring optical nonlinearities via the Purcell effect. Bravo-Abad J, Rodriguez A, Bermel P, Johnson SG, Joannopoulos JD, Soljacic M. 2007. Enhanced nonlinear optics in photonic-crystal nanocavities. OE. 15:16161–16176. Referenced from www.opticsexpress.org: Enhanced nonlinear optics in photonic-crystal nanocavities. Rodriguez A, Ibanescu M, Iannuzzi D, Joannopoulos JD, Johnson SG. 2007. Virtual photons in imaginary time: computing exact Casimir forces via standard numerical-electromagnetism techniques. PRA. 76:032106. Referenced from link.aps.org: Virtual photons in imaginary time: computing exact Casimir forces via standard numerical-electromagnetism techniques. Rodriguez A, Johnson SG. 2007. Efficient generation of correlated random numbers using Chebychev-optimal magnitude-only IIR filters. arXiv:0703152. 99:80401. Referenced from arxiv.org: Efficient generation of correlated random numbers using Chebychev-optimal magnitude-only IIR filters. Rodriguez A, Soljacic M, Joannopoulos JD, Johnson SG. 2007. $\chi^(2)$ and $\chi^(3)$ harmonic generation at a critical power in inhomogeneous doubly resonant cavities. OE. 15:7303–7318. Referenced from www.opticsinfobase.org: $\chi^(2)$ and $\chi^(3)$ harmonic generation at a critical power in inhomogeneous doubly resonant cavities. Zaheer S, Rodriguez AW, Johnson SG, Jaffe RL. 2007. Optical-approximation analysis of sidewall-spacing effects on the force between two squares with parallel sidewalls. PRA. 76:063816. Referenced from link.aps.org: Optical-approximation analysis of sidewall-spacing effects on the force between two squares with parallel sidewalls. Bermel P, Rodriguez A, Johnson SG, Joannopoulos JD, Soljacic M. 2006. Single-photon all-optical switching using waveguide-cavity QED. PRA. 74:043818. Referenced from link.aps.org: Single-photon all-optical switching using waveguide-cavity QED. Farjadpour A, Roundy D, Rodriguez A, Ibanescu M, Bermel P, Burr G, Joannopoulos JD, Johnson SG. 2006. Improving accuracy by sub-pixel smoothing in the finite-difference time domain. OL. 31:2972–2974. Referenced from www.opticsinfobase.org: Improving accuracy by sub-pixel smoothing in the finite-difference time domain. Shapira O, Kuriki K, Orf ND, Abouraddy AF, Benoit G, Viens JF, Rodriguez A, Ibanescu M, Joannopoulos JD, Fink Y. 2006. Surface-emitting fiber lasers. OE. 14:3929–3935. Referenced from www.opticsinfobase.org: Surface-emitting fiber lasers. Rodriguez A, Ibanescu M, Joannopoulos JD, Johnson SG. 2005. Disorder-immune confinement of light in photonic crystal cavities. OL. 30:3192–3194. Referenced from www.opticsinfobase.org: Disorder-immune confinement of light in photonic crystal cavities. Pagination First page « First Previous page ‹ Previous Page 1 Page 2 Current page 3