Publications
Publications in 2009
(1) G. Veronis, Z. Yu, S. E. Kocabas, D. A. B. Miller, M. L. Brongersma and S. Fan, “Metal-dielectric-metal plasmonic waveguide devices for manipulating light at the nanoscale”, Chinese Optics Letters, vol. 7. No. 4, p. 302-308 (2009) (invited paper).
(2) J. Shin, J. T. Shen and S. Fan, “Three-dimensional meta-material with an ultra-high refractive index over broad bandwidth”, Physical Review Letters, vol. 102, art. No. 093903 (2009).
(3) L. Verslegers, P. B. Catrysse, Z. Yu and S. Fan, “Deep-subwavelength focusing and steering of light in an aperiodic metallic waveguide array”, Physical Review Letters, vol. 103, art. No. 033902 (2009).
(4) Z. Ruan, G. Veronis, K. L. Vodopyanov, M. M. Fejer and S. Fan, “Enhancement of optics-to-THz conversion efficiency by metallic slot waveguides”, Optics Express, vol. 17, no. 16, p. 13502-13515 (2009).
(5) S. E. Kocabas, G. Veronis, D. A. B. Miller, and S. H. Fan, “Modal Analysis and Coupling in Metal-Insulator-Metal Waveguides,” Phys. Rev. B 79, 035120 (2009)
(6) S. Latif, S. E. Kocabas, L. Tang, C. Debaes & D. A. B. Miller, “Low capacitance CMOS silicon photodetectors for optical clock injection”, Appl. Phys. A – Materials Science and Processing 95, 1129-1135 (2009)
(7) “Extraordinary optical absorption through subwavelength slits,” Justin S. White, Georgios Veronis, Zongfu Yu, Edward S. Barnard, Anu Chandran, Shanhui Fan,; Mark L. Brongersma,Opt. Lett., 686-688, 34 (2009).
(8) “Planar Lenses Based on Nanoscale Slit Arrays in a Metallic Film,” Lieven Verslegers, Peter B. Catrysse, Zongfu Yu, Justin S. White, Edward S. Barnard, Mark L. Brongersma, and Shanhui Fan, Nano Lett., 235–238, 9 (2009).
(9) “Plasmon-enhanced emission from optically-doped MOS light sources,” Aaron Hryciw, Young Chul Jun, Mark L. Brongersma, Opt. Express, 17, 185-192 (2009).
(10)“A Non-Volatile Plasmonic Switch Employing Photochromic Molecules,” Ragip A. Pala, Ken T. Shimizu, Nick A. Melosh, and Mark L. Brongersma, Nano Lett.8, 1506 (2008).
Publications in 2008
(1) Z. Yu, G. Veronis, Z. Wang and S. Fan, “One-way electromagnetic waveguide formed at the interface between a plasmonic metal under static magnetic field and a photonic crystal”, Physical Review Letters, vol. 100, art. No. 023902 (2008).
(2) Z. Yu, G. Veronis, S. Fan, and M. L. Brongersma, “Gain-induced switching in metal-dielectric-metal plasmonic waveguides”, Applied Physics Letters, vol. 92, art. No. 041117 (2008).
(3) G. Veronis and S. Fan, “Crosstalk between three-dimensional plasmonic slot waveguides”, Optics Express, vol. 16, pp. 2129-2140 (2008).
(4) Mark L. Brongersma “Plasmonics – Engineering Optical Nanoantennas,” Nature Photonics 2, 270-272 (2008).
(5) Ragip A. Pala, Ken T. Shimizu, Nick A. Melosh, and Mark L. Brongersma, “A Non-Volatile Plasmonic Switch Employing Photochromic Molecules,” Nano Lett.8, 1506 (2008).
(6) Liang Tang, Sukru Ekin Kocabas, Salman Latif, Ali K. Okyay, Dany-Sebastien Ly-Gagnon, Krishna C. Saraswat and David A. B. Miller, “Nanometre-Scale Germanium Photodetector Enhanced by a Near-Infrared Dipole Antenna,” Nature Photonics 2, 226 – 229 (2008) doi:10.1038/nphoton.2008.30
(7) S. E. Kocabas, G. Veronis, D. A. B. Miller, and S. H. Fan, “Transmission Line and Equivalent Circuit Models for Plasmonic Waveguide Components,” (To be published, IEEE J. Selected Topics in Quantum Electronics, Digital Object Identifier: 10.1109/JSTQE.2008.924431)
(8) Şükrü Ekin Kocabaş, Georgios Veronis, David A. B. Miller, Shanhui Fan, “Modal Analysis and Coupling in Metal-Insulator-Metal Waveguides,” (submitted to Physical Review B) arXiv:0809.2850v1 [physics.optics]
(9) Dany-Sebastien Ly-Gagnon, Sukru Ekin Kocabas, David A.B. Miller, “Characteristic Impedance Model for Plasmonic Metal Slot Waveguides,” (to be published, IEEE J. Selected Topics in Quantum Electronics, Issue on Surface Plasmon Photonics and Materials, 2008) Digital Object Identifier: 10.1109/JSTQE.2008.917534
Publications in 2007
(1) G. Veronis and S. Fan, "Theoretical investigations of compact couplers between dielectric slab waveguides and two-dimensional metal-dielectric-metal plasmonic waveguides", Optics Express, vol. 15, pp. 1211-1221 (2007).
(2) P. B. Catrysse and S. Fan, "Near-complete transmission through sub-wavelength hole arrays in polaritonic thin films", Physical Review B, vol. 75, art. No. 075422 (2007).
(3) G. Veronis and S. Fan, "Modes of sub-wavelength plasmonic slot waveguides", Journal of Lightwave Technology, vol. 25, pp. 2511-2521 (invited paper) (2007).
(4) J. Shin, J. T. Shen, and S. Fan, "Three-dimensional electromagnetic meta-materials with non- Maxwellian effective fields", Physical Review B, vol. 76, art. No. 113101 (2007).
(5) P. B. Catrysse and S. Fan, "Enhancing the bandwidth of nano-scale propagating plasmonic modes in deep sub-wavelength cylindrical holes", Applied Physics Letters, vol. 91, art. No. 181118 (2007).
(6) P. B. Catrysse and S. Fan, "Propagating plasmonic mode in nano-scale apertures and its implications for extra-ordinary transmission", Journal of Nanophotonics (Invited paper, accepted).
(7) S. E. Kocabas, G. Veronis, D. A. B. Miller and S. Fan, "Plasmonic waveguides as transmission lines", IEEE Selected Topics on Quantum Electronics .
(8) David A. B. Miller, “The Fundamental Limit to Optical Components,” Optics and Photonics News, Optics in 2007 Special Issue, December 2007, p. 27
(9) D. A. B. Miller, “Fundamental Limit to Linear One-Dimensional Slow Light Structures,” Phys. Rev. Lett. 99, 203903 (2007) doi:10.1103/PhysRevLett.99.203903 , selected for the November 26, 2007 issue of Virtual Journal of Nanoscale Science & Technology
(10) D. A. B. Miller, "Fundamental limit for optical components," J. Opt. Soc. Am. B 24, A1-A18 (2007) (Most downloaded article from all OSA journals other than Optics Express for October 2007)
(11) S. Latif, S. E. Kocabas, L. Tang, and D. A. B. Miller, “Rise-time measurements of low capacitance CMOS detectors using a pump-probe technique,” OSA Annual Meeting “Frontiers in Optics” 2007, San Jose, CA, Sept. 2007, Paper LWJ4
(12) S. E. Kocabas, D.-S. Ly-Gagnon, and D. A. B. Miller, “Plasmonic waveguides as transmission lines,” OSA Annual Meeting “Frontiers in Optics” 2007, San Jose, CA, Sept. 2007, Paper FWO5
(13) D. A. B. Miller, “Fundamental limit to optical components,” OSA Annual Meeting “Frontiers in Optics” 2007, San Jose, CA, Sept. 2007, Paper FWO7
(14) A. K. Okyay, A. J. Pethe, D. Kuzum, S. Latif, D. A. B. Miller, and K. C. Saraswat, “Novel Di- based CMOS Optoelectronic Switching Device Operating in the Near Infrared,” in Optical Fiber Communication Conference and Exposition and The National Fiber Optic Engineers Conference on CD-ROM (Optical Society of America, Washington, DC, 2007), Paper JWA38
(15) D. A. B. Miller, “Fundamental Limit to Delay-Bandwidth Product in One-Dimensional Linear Optical Structures,” Slow Light and Fast Light Topical Meeting, July 9, 2007, Paper SMB1
(16) L. Tang, E. Kocabas, S. Latif, A. K. Okyay, D. Ly-Gagnon, K. C. Saraswat, and D. A. B. Miller, “Near-infrared photodetector enhanced by an open-sleeve dipole antenna,” OSA Topical Meeting on Integrated Photonics and Nanophotonics Research and Applications (IPRNA), Salt Lake City, Utah, July 2007, Paper ITuD3
(17) A. K. Okyay, A. J. Pethe, D. Kuzum, S. Latif, D. A. Miller, and K. C. Saraswat, " Si Ge optoelectronic metal-oxide semiconductor field-effect transistor," Opt. Lett. 32, 2022-2024 (2007)
(18) A. K. Okyay, A. J. Pethe, D. Kuzum, S. Latif, D. A. B. Miller, and K. C. Saraswat, “Novel Si- based Optoelectronic Switching Device: Light to Latch,” Conference of Lasers and Electro- Optics (CLEO ’07), Baltimore, Maryland, May 2007, Paper CMP1
Publications in 2006
(1) P. B. Catrysse, G. Veronis, H. Shin, J. –T. Shen, and S. Fan, “Guided modes supported by plasmonic films with a periodic arrangement of sub-wavelength slits”, Applied Physics Letters, vol. 88, art. No. 031101 (2006).
(2) H. Shin and S. Fan, “All-angle negative refraction for surface plasmon waves using a metal-dielectric-metal structure”, Physical Review Letters, vol. 96, art. No. 073907 (2006).
(3) H. Shin and S. Fan, “All-angle negative refraction and evanescent wave amplification using one-dimensional metallo-dielectric photonic crystals”, Applied Physics Letters, Vol. 89, Art. No. 151102 (2006).
(4) “Near-Field Characterization of Guided Polariton Propagation and Cutoff in Surface Plasmon Waveguides,” Rashid Zia, Jon A. Schuller, and Mark L. Brongersma, Physical Review B, 74, 165415 (2006).
(5) “Metal-dielectric slot waveguide structures for the propagation of surface plasmon polaritons at 1.55 µm,” Ning-Ning Feng, Mark L. Brongersma, and Luca Dal Negro, Submitted IEEE Journ. Of Quant. Electron. (2006).
(6) R. Zia and Mark L. Brongersma, “Surface plasmon polariton analogue to Young's double-slit experiment,” Nature Nanotechnology, vol. 2, pp 426-429 (2006).
(7) “Plasmonics: The Next Chip-Scale Technology,” Rashid Zia, Jon A. Schuller and Mark L. Brongersma, Invited review in Materials Today 9, 20-27 (2006).
(8) Liang Tang, David A. B. Miller, Ali K. Okyay, Joseph A. Matteo, Yin Yuen, Krishna C. Saraswat, and Lambertus Hesselink, “C-shaped nanoaperture-enhanced germanium photodetector,” Optics Letters; May 15 2006; v.31, no.10, p.1519-1521
Publications in 2005
(1) H. Shin, P. B. Catrysse, and S. Fan, “Effect of the plasmonic dispersion relation on the transmission properties of subwavelength cylindrical holes”, Physical Review B, vol. 72, art. No. 085406 (2005).
(2) G. Veronis and S. Fan, “Bends and splitters in subwavelength metal-dielectric-metal plasmonic waveguides”, Applied Physics Letters, vol. 87, art. No. 131102 (2005).
(3) P. B. Catrysse, H. Shin, and S. Fan, “Propagating mode in subwavelength cylindrical holes”, Journal of Vacuum Science and Technology B, vol. 23, pp. 2675-2678 (2005).
(4) G. Veronis and S. Fan, “Guided subwavelength plasmonic mode supported by a slot in a thin metal film”, Optics Letters, vol. 30, pp. 3359-3361 (2005).
(5) J. T. Shen, P. B. Catrysse, S. Fan, “Mechanisms for designing metallic metamaterials with a high index of refraction”, Physical Review Letters, 94, 197401 (2005). (Featured in Physical Review Focus, June 3, 2005).
(6) R. Zia, A. Chandran, Mark L. Brongersma, “Dielectric waveguide model for guided surface polaritons,” Optics Letters 30, 1473-1475 (2005).
(7) “Leaky and bound modes of plasmonic waveguides,” Rashid Zia, Mark D. Selker, and Mark L. Brongersma, Phys. Rev. B 71, 165431, (2005).