Engheta, Nader

Publication with MATCHING institution:

• Lee E, Zhang M, Cho Y, ..., Yang S (2014) Tilted pillars on wrinkled elastomers as a reversibly tunable optical window.
  Advanced Materials. [IF=4.1, Cited=30, 24710742].
• Cai YY, Fallah A, Yang S, ..., Kagan CR (2023) Open and Close-Packed, Shape-Engineered Polygonal Nanoparticle
  Metamolecules with Tailorable Fano Resonances. Advanced Materials. [IF=4.1, Cited=0, 37165983].
• Runnerstrom EL, Kelley KP, Folland TG, ..., Maria JP (2019) Polaritonic Hybrid-Epsilon-near-Zero Modes: Beating the
  Plasmonic Confinement vs Propagation-Length Trade-Off with Doped Cadmium Oxide Bilayers. Nano Letters. [IF=1.873,
  Cited=2, 30582700].
• Kuznetsov AI, Brongersma ML, Yao J, ..., Pala RA (2024) Roadmap for Optical Metasurfaces. ACS Photonics. [IF=1.671,
  Cited=2, 38550347].
• Fafarman AT, Hong SH, Caglayan H, ..., Kagan CR (2012) Chemically tailored dielectric-to-metal transition for the design
  of metamaterials from nanoimprinted colloidal nanocrystals. Nano Letters. [IF=1.873, Cited=25, 23215159].
• Ye X, Jin L, Caglayan H, ..., Murray CB (2012) Improved size-tunable synthesis of monodisperse gold nanorods through the
  use of aromatic additives. ACS Nano. [IF=2.423, Cited=174, 22376005].
• Saboktakin M, Ye X, Oh SJ, ..., Kagan CR (2012) Metal-enhanced upconversion luminescence tunable through metal
  nanoparticle-nanophosphor separation. ACS Nano. [IF=2.423, Cited=72, 22967489].
• Saboktakin M, Ye X, Chettiar UK, ..., Kagan CR (2013) Plasmonic enhancement of nanophosphor upconversion luminescence in
  Au nanohole arrays. ACS Nano. [IF=2.423, Cited=53, 23909608].
• Paik T, Hong SH, Gaulding EA, ..., Murray CB (2014) Solution-processed phase-change VO(2) metamaterials from colloidal
  vanadium oxide (VO(x)) nanocrystals. ACS Nano. [IF=2.423, Cited=17, 24377298].
• Fafarman AT, Hong SH, Oh SJ, ..., Kagan CR (2014) Air-stable, nanostructured electronic and plasmonic materials from
  solution-processable, silver nanocrystal building blocks. ACS Nano. [IF=2.423, Cited=8, 24484271].
• Hastings SP, Swanglap P, Qian Z, ..., Fakhraai Z (2014) Quadrupole-enhanced Raman scattering. ACS Nano. [IF=2.423,
  Cited=7, 25157600].
• Greybush NJ, Saboktakin M, Ye X, ..., Kagan CR (2014) Plasmon-enhanced upconversion luminescence in single nanophosphor-
  nanorod heterodimers formed through template-assisted self-assembly. ACS Nano. [IF=2.423, Cited=38, 25182662].
• Liberal I, Mahmoud AM, Engheta N (2016) Geometry-invariant resonant cavities. Nature Communications. [IF=3.268,
  Cited=21, 27010103].
• Dregely D, Lindfors K, Lippitz M, ..., Giessen H (2014) Imaging and steering an optical wireless nanoantenna link.
  Nature Communications. [IF=3.268, Cited=21, 24993946].
• Davoyan A, Engheta N (2014) Electrically controlled one-way photon flow in plasmonic nanostructures. Nature
  Communications. [IF=3.268, Cited=8, 25373887].
• Mahmoud AM, Engheta N (2014) Wave-matter interactions in epsilon-and-mu-near-zero structures. Nature Communications.
  [IF=3.268, Cited=35, 25476550].
• Mahmoud AM, Davoyan AR, Engheta N (2015) All-passive nonreciprocal metastructure. Nature Communications. [IF=3.268,
  Cited=17, 26414528].
• Rodríguez-Fortuño FJ, Engheta N, Martínez A, Zayats AV (2015) Lateral forces on circularly polarizable particles near a
  surface. Nature Communications. [IF=3.268, Cited=32, 26581479].
• Della Giovampaola C, Engheta N (2014) Digital metamaterials. Nature Materials. [IF=6.645, Cited=53, 25218061].
• Zhang M, Magagnosc DJ, Liberal I, ..., Kagan CR (2016) High-strength magnetically switchable plasmonic nanorods
  assembled from a binary nanocrystal mixture. Nature Nanotechnology. [IF=6.001, Cited=15, 27819691].
• Engheta N (2017) In pursuit of waves. Nature Nanotechnology. [IF=6.001, Cited=0, 28383039].
• Pacheco-Peña V, Engheta N (2020) Temporal aiming. Light: Science and Applications. [IF=4.689, Cited=5, 32704362].
• Lobet M, Liberal I, Vertchenko L, ..., Mazur E (2022) Momentum considerations inside near-zero index materials. Light:
  Science and Applications. [IF=4.689, Cited=4, 35468887].
• Zhou Z, Li H, Sun W, ..., Li Y (2022) Dispersion coding of ENZ media via multiple photonic dopants. Light: Science and
  Applications. [IF=4.689, Cited=1, 35794087].
• Tzarouchis DC, Mencagli MJ, Edwards B, Engheta N (2022) Mathematical operations and equation solving with reconfigurable
  metadevices. Light: Science and Applications. [IF=4.689, Cited=2, 36071052].
• Esfandyarpour M, Curto AG, Kik PG, ..., Brongersma ML (2018) Optical emission near a high-impedance mirror. Nature
  Communications. [IF=3.268, Cited=0, 30104605].
• Zhou Z, Li Y, Li H, ..., Engheta N (2019) Substrate-integrated photonic doping for near-zero-index devices. Nature
  Communications. [IF=3.268, Cited=8, 31511516].
• Camacho M, Edwards B, Engheta N (2020) Achieving asymmetry and trapping in diffusion with spatiotemporal metamaterials.
  Nature Communications. [IF=3.268, Cited=4, 32709906].
• Camacho M, Edwards B, Engheta N (2021) A single inverse-designed photonic structure that performs parallel computing.
  Nature Communications. [IF=3.268, Cited=7, 33674576].
• Li H, Zhou Z, He Y, ..., Engheta N (2022) Geometry-independent antenna based on Epsilon-near-zero medium. Nature
  Communications. [IF=3.268, Cited=2, 35732619].
• Li H, Zhou Z, Sun W, ..., Li Y (2022) Direct observation of ideal electromagnetic fluids. Nature Communications.
  [IF=3.268, Cited=3, 35961975].
• Hu J, Mengu D, Tzarouchis DC, ..., Ozcan A (2024) Diffractive optical computing in free space. Nature Communications.
  [IF=3.268, Cited=0, 38378715].
• Cordaro A, Edwards B, Nikkhah V, ..., Polman A (2023) Solving integral equations in free space with inverse-designed
  ultrathin optical metagratings. Nature Nanotechnology. [IF=6.001, Cited=7, 36635333].
• Zanjani MB, Davoyan AR, Engheta N, Lukes JR (2015) NEMS With Broken T Symmetry: Graphene Based Unidirectional Acoustic
  Transmission Lines. Scientific Reports. [IF=1.312, Cited=3, 25993637].
• Mahmoud AM, Engheta N (2015) Peculiar terminals in light at the extreme. None. [IF=None, Cited=0, 25738260].
• Liberal I, Engheta N (2017) Zero-index structures as an alternative platform for quantum optics. Proceedings of the
  National Academy of Sciences of the United States of America. [IF=2.765, Cited=10, 28096367].
• Liberal I, Engheta N (2018) Manipulating thermal emission with spatially static fluctuating fields in arbitrarily shaped
  epsilon-near-zero bodies. Proceedings of the National Academy of Sciences of the United States of America. [IF=2.765,
  Cited=11, 29507219].
• Hadad Y, Engheta N (2020) Possibility for inhibited spontaneous emission in electromagnetically open parity-time-
  symmetric guiding structures. Proceedings of the National Academy of Sciences of the United States of America.
  [IF=2.765, Cited=1, 32123066].
• Coppolaro M, Moccia M, Castaldi G, ..., Galdi V (2020) Non-Hermitian doping of epsilon-near-zero media. Proceedings of
  the National Academy of Sciences of the United States of America. [IF=2.765, Cited=1, 32518110].
• Liberal I, Lobet M, Li Y, Engheta N (2020) Near-zero-index media as electromagnetic ideal fluids. Proceedings of the
  National Academy of Sciences of the United States of America. [IF=2.765, Cited=6, 32913050].
• Nikonov S, Engheta N, Pugh EN (1998) Kinetics of recovery of the dark-adapted salamander rod photoresponse. Journal of
  General Physiology. [IF=0.994, Cited=92, 9417132].
• Silveirinha MG, Giovampaola CD, Engheta N (2015) Two cases of spatial transformations. Philosophical transactions.
  Series A, Mathematical, physical, and engineering sciences. [IF=1.42, Cited=1, 26217063].
• Liberal I, Li Y, Engheta N (2017) Magnetic field concentration assisted by epsilon-near-zero media. Philosophical
  transactions. Series A, Mathematical, physical, and engineering sciences. [IF=1.42, Cited=0, 28219995].
• Davoyan AR, Engheta N (2013) Theory of wave propagation in magnetized near-zero-epsilon metamaterials: evidence for one-
  way photonic states and magnetically switched transparency and opacity. Physical Review Letters. [IF=2.288, Cited=11, 24483756].
• Rodríguez-Fortuño FJ, Vakil A, Engheta N (2014) Electric levitation using ϵ-near-zero metamaterials. Physical Review
  Letters. [IF=2.288, Cited=8, 24484139].
• Mohammadi Estakhri N, Engheta N, Kastner R (2020) Electromagnetic Funnel: Reflectionless Transmission and Guiding of
  Waves through Subwavelength Apertures. Physical Review Letters. [IF=2.288, Cited=0, 32031859].
• Gong T, Liberal I, Spreng B, ..., Munday JN (2023) Effect of Epsilon-Near-Zero Modes on the Casimir Interaction between
  Ultrathin Films. Physical Review Letters. [IF=2.288, Cited=0, 37243642].
• Engheta N, Salandrino A, Alù A (2005) Circuit elements at optical frequencies: nanoinductors, nanocapacitors, and
  nanoresistors. Physical Review Letters. [IF=2.288, Cited=84, 16197226].
• Li Y, Liberal I, Della Giovampaola C, Engheta N (2016) Waveguide metatronics: Lumped circuitry based on structural
  dispersion. Science advances. [IF=2.861, Cited=8, 27386566].
• Liberal I, Engheta N (2016) Nonradiating and radiating modes excited by quantum emitters in open epsilon-near-zero
  cavities. Science advances. [IF=2.861, Cited=18, 27819047].
• Li Y, Liberal I, Engheta N (2019) Structural dispersion-based reduction of loss in epsilon-near-zero and surface plasmon
  polariton waves. Science advances. [IF=2.861, Cited=4, 31646172].
• Engheta N (2007) Circuits with light at nanoscales: optical nanocircuits inspired by metamaterials. Science. [IF=7.729,
  Cited=252, 17885123].
• Vakil A, Engheta N (2011) Transformation optics using graphene. Science. [IF=7.729, Cited=422, 21659598].
• Engheta N (2011) Applied physics. Antenna-guided light. Science. [IF=7.729, Cited=8, 22021846].
• Engheta N (2013) Materials science. Pursuing near-zero response. Science. [IF=7.729, Cited=46, 23599473].
• Silva A, Monticone F, Castaldi G, ..., Engheta N (2014) Performing mathematical operations with metamaterials. Science.
  [IF=7.729, Cited=166, 24408430].
• Engheta N (2015) OPTICS. 150 years of Maxwell's equations. Science. [IF=7.729, Cited=2, 26160929].
• Liberal I, Mahmoud AM, Li Y, ..., Engheta N (2017) Photonic doping of epsilon-near-zero media. Science. [IF=7.729,
  Cited=28, 28280202].
• Liberal I, Engheta N (2017) The rise of near-zero-index technologies. Science. [IF=7.729, Cited=9, 29269463].
• Mohammadi Estakhri N, Edwards B, Engheta N (2019) Inverse-designed metastructures that solve equations. Science.
  [IF=7.729, Cited=70, 30898930].
• Engheta N (2023) Four-dimensional optics using time-varying metamaterials. Science. [IF=7.729, Cited=4, 36952405].
• Huidobro PA, Alam MZ, Engheta N, Pacheco-Peña V (2023) Feature issue introduction: temporal and spatiotemporal
  metamaterials. Optics Express. [IF=1.434, Cited=0, 37381525].
• Nahvi E, Mencagli MJ, Engheta N (2022) Tunable radiation enhancement and suppression using a pair of photonically doped
  epsilon-near-zero (ENZ) slabs. Optics Letters. [IF=1.297, Cited=0, 35290303].
• Alù A, Engheta N (2011) Emission Enhancement in a Plasmonic Waveguide at Cut-Off. Materials. [IF=1.067, Cited=1, 28879982].

Publication with MISMATCHING institution:

Publication with MISSING institution:

• Zhang M, Pacheco-Peña V, Yu Y, ..., Kagan CR (2018) Nanoimprinted Chiral Plasmonic Substrates with Three-Dimensional
  Nanostructures. Nano Letters. [IF=1.873, Cited=6, 30257094].
• Greybush NJ, Liberal I, Malassis L, ..., Kagan CR (2017) Plasmon Resonances in Self-Assembled Two-Dimensional Au
  Nanocrystal Metamolecules. ACS Nano. [IF=2.423, Cited=18, 28190335].
• Greybush NJ, Pacheco-Peña V, Engheta N, ..., Kagan CR (2019) Plasmonic Optical and Chiroptical Response of Self-
  Assembled Au Nanorod Equilateral Trimers. ACS Nano. [IF=2.423, Cited=13, 30629426].
• Qian Z, Hastings SP, Li C, ..., Park SJ (2015) Raspberry-like metamolecules exhibiting strong magnetic resonances. ACS
  Nano. [IF=2.423, Cited=16, 25621502].
• Rodríguez-Fortuño FJ, Engheta N, Martínez A, Zayats AV (2015) Erratum: Lateral forces on circularly polarizable
  particles near a surface. Nature Communications. [IF=3.268, Cited=0, 26655597].
• Sun Y, Edwards B, Alù A, Engheta N (2012) Experimental realization of optical lumped nanocircuits at infrared
  wavelengths. Nature Materials. [IF=6.645, Cited=28, 22286335].
• García de Abajo FJ, Sapienza R, Noginov M, ..., Zayats A (2015) Plasmonic and new plasmonic materials: general
  discussion. None. [IF=None, Cited=2, 25945917].
• Alù A, Engheta N (2005) Achieving transparency with plasmonic and metamaterial coatings. None. [IF=None, Cited=183, 16090123].
• Alù A, Engheta N, Ziolkowski RW (2006) Finite-difference time-domain analysis of the tunneling and growing exponential
  in a pair of epsilon-negative and mu-negative slabs. None. [IF=None, Cited=5, 16907201].
• Silveirinha MG, Alù A, Engheta N (2007) Parallel-plate metamaterials for cloaking structures. None. [IF=None, Cited=28, 17500805].
• Alù A, Silveirinha MG, Engheta N (2008) Transmission-line analysis of epsilon -near-zero-filled narrow channels. None.
  [IF=None, Cited=14, 18764071].
• Alù A, Engheta N (2008) Effects of size and frequency dispersion in plasmonic cloaking. None. [IF=None, Cited=8, 18999485].
• Edwards B, Alù A, Young ME, ..., Engheta N (2008) Experimental verification of epsilon-near-zero metamaterial coupling
  and energy squeezing using a microwave waveguide. Physical Review Letters. [IF=2.288, Cited=107, 18232982].
• Alù A, Engheta N (2008) Multifrequency optical invisibility cloak with layered plasmonic shells. Physical Review
  Letters. [IF=2.288, Cited=85, 18517786].
• Alù A, Engheta N (2008) Input impedance, nanocircuit loading, and radiation tuning of optical nanoantennas. Physical
  Review Letters. [IF=2.288, Cited=64, 18764328].
• Silveirinha MG, Engheta N (2009) Transporting an Image through a Subwavelength Hole. Physical Review Letters. [IF=2.288,
  Cited=10, 19392114].
• Alù A, Engheta N (2009) Cloaking a sensor. Physical Review Letters. [IF=2.288, Cited=57, 19658934].
• Alù A, Engheta N (2009) Boosting molecular fluorescence with a plasmonic nanolauncher. Physical Review Letters.
  [IF=2.288, Cited=19, 19659353].
• Alù A, Engheta N (2009) All optical metamaterial circuit board at the nanoscale. Physical Review Letters. [IF=2.288,
  Cited=19, 19905568].
• Edwards B, Alù A, Silveirinha MG, Engheta N (2009) Experimental verification of plasmonic cloaking at microwave
  frequencies with metamaterials. Physical Review Letters. [IF=2.288, Cited=66, 19905638].
• Alù A, Engheta N (2010) Wireless at the nanoscale: optical interconnects using matched nanoantennas. Physical Review
  Letters. [IF=2.288, Cited=41, 20867100].
• Alù A, Engheta N (2010) Cloaked near-field scanning optical microscope tip for noninvasive near-field imaging. Physical
  Review Letters. [IF=2.288, Cited=18, 21231668].
• Castaldi G, Galdi V, Alù A, Engheta N (2012) Nonlocal transformation optics. Physical Review Letters. [IF=2.288,
  Cited=4, 22401073].
• Edwards B, Engheta N (2012) Experimental verification of displacement-current conduits in metamaterials-inspired optical
  circuitry. Physical Review Letters. [IF=2.288, Cited=9, 23003040].
• Vesseur EJR, Coenen T, Caglayan H, ..., Polman A (2013) Experimental verification of n = 0 structures for visible light.
  Physical Review Letters. [IF=2.288, Cited=38, 23383791].
• Castaldi G, Savoia S, Galdi V, ..., Engheta N (2013) PT metamaterials via complex-coordinate transformation optics.
  Physical Review Letters. [IF=2.288, Cited=25, 23679728].
• Silveirinha MG, Engheta N (2013) Spatial delocalization and perfect tunneling of matter waves: electron perfect lens.
  Physical Review Letters. [IF=2.288, Cited=1, 23745877].
• Davoyan AR, Engheta N (2013) Nonreciprocal rotating power flow within plasmonic nanostructures. Physical Review Letters.
  [IF=2.288, Cited=6, 23931403].
• Caglayan H, Hong SH, Edwards B, ..., Engheta N (2013) Near-infrared metatronic nanocircuits by design. Physical Review
  Letters. [IF=2.288, Cited=14, 23992069].
• Silveirinha M, Engheta N (2006) Tunneling of electromagnetic energy through subwavelength channels and bends using
  epsilon-near-zero materials. Physical Review Letters. [IF=2.288, Cited=195, 17155357].
• Tyo JS, Rowe MP, Pugh EN, Engheta N (1996) Target detection in optically scattering media by polarization-difference
  imaging. Applied Optics. [IF=0.885, Cited=77, 21085310].
• Gruev V, Van der Spiegel J, Engheta N (2010) Dual-tier thin film polymer polarization imaging sensor. Optics Express.
  [IF=1.434, Cited=18, 20940825].
• Iizuka H, Engheta N, Fujikawa H, Sato K (2011) Arm-edge conditions in plasmonic folded dipole nanoantennas. Optics
  Express. [IF=1.434, Cited=1, 21716469].
• Chettiar UK, Garcia RF, Maier SA, Engheta N (2012) Enhancement of radiation from dielectric waveguides using resonant
  plasmonic coreshells. Optics Express. [IF=1.434, Cited=2, 22772301].
• Chettiar UK, Engheta N (2012) Internal homogenization: effective permittivity of a coated sphere. Optics Express.
  [IF=1.434, Cited=15, 23188261].
• Zhang M, Ihida-Stansbury K, Van der Spiegel J, Engheta N (2012) Polarization-based non-staining cell detection. Optics
  Express. [IF=1.434, Cited=1, 23187355].
• Davoyan AR, Mahmoud AM, Engheta N (2013) Optical isolation with epsilon-near-zero metamaterials. Optics Express.
  [IF=1.434, Cited=14, 23481787].
• DeRose CT, Kekatpure RD, Trotter DC, ..., Davids PS (2013) Electronically controlled optical beam-steering by an active
  phased array of metallic nanoantennas. Optics Express. [IF=1.434, Cited=11, 23482053].
• Torres V, Pacheco-Peña V, Rodríguez-Ulibarri P, ..., Engheta N (2013) Terahertz epsilon-near-zero graded-index lens.
  Optics Express. [IF=1.434, Cited=6, 23572004].
• Abbasi F, Engheta N (2014) Roles of epsilon-near-zero (ENZ) and mu-near-zero (MNZ) materials in optical metatronic
  circuit networks. Optics Express. [IF=1.434, Cited=0, 25401543].
• Matsui T, Miura A, Ikeda N, ..., Iizuka H (2014) Experimental investigation of double-groove grating satisfying total
  internal reflection condition. Optics Express. [IF=1.434, Cited=3, 25401570].
• Chettiar UK, Engheta N (2015) Modeling vanadium dioxide phase transition due to continuous-wave optical signals. Optics
  Express. [IF=1.434, Cited=4, 25835689].
• Hastings SP, Qian Z, Swanglap P, ..., Fakhraai Z (2015) Modal interference in spiky nanoshells. Optics Express.
  [IF=1.434, Cited=1, 25969225].
• Li Y, Liberal I, Engheta N (2017) Dispersion synthesis with multi-ordered metatronic filters. Optics Express. [IF=1.434,
  Cited=2, 29519043].
• Iizuka H, Engheta N, Fujikawa H, ..., Takeda Y (2010) Role of propagating modes in a double-groove grating with a +1st-
  order diffraction angle larger than the substrate-air critical angle. Optics Letters. [IF=1.297, Cited=4, 21124583].
• Chettiar UK, Davoyan AR, Engheta N (2014) Hotspots from nonreciprocal surface waves. Optics Letters. [IF=1.297,
  Cited=4, 24686598].
• Capretti A, Wang Y, Engheta N, Dal Negro L (2015) Enhanced third-harmonic generation in Si-compatible epsilon-near-zero
  indium tin oxide nanolayers. Optics Letters. [IF=1.297, Cited=22, 25831369].
• Nahvi E, Liberal I, Engheta N (2020) Soft surfaces and enhanced nonlinearity enabled via epsilon-near-zero media doped
  with zero-area perfect electric conductor inclusions. Optics Letters. [IF=1.297, Cited=0, 32797017].
• Iizuka H, Engheta N, Sugiura S (2016) Extremely small wavevector regime in a one-dimensional photonic crystal
  heterostructure for angular transmission filtering. Optics Letters. [IF=1.297, Cited=0, 27519100].
• Fallah A, Engheta N (2024) Nonreciprocal response of electrically biased graphene-coated fiber. Optics Letters.
  [IF=1.297, Cited=0, 39146153].
• Yemelyanov KM, Lin SS, Pugh EN, Engheta N (2006) Adaptive algorithms for two-channel polarization sensing under various
  polarization statistics with nonuniform distributions. Applied Optics. [IF=0.885, Cited=7, 16855649].
• Rowe MP, Engheta N, Easter SS, Pugh EN (1994) Graded-index model of a fish double cone exhibits differential
  polarization sensitivity. Journal of the Optical Society of America A: Optics and Image Science, and Vision. [IF=0.96,
  Cited=15, 8106915].
• Lin SS, Yemelyanov KM, Pugh EN, Engheta N (2006) Polarization-based and specular-reflection-based noncontact latent
  fingerprint imaging and lifting. Journal of the Optical Society of America A: Optics and Image Science, and Vision.
  [IF=0.96, Cited=19, 16912740].
• Yemelyanov K, Lo M, Pugh E, Engheta N (2003) Display of polarization information by coherently moving dots. Optics
  Express. [IF=1.434, Cited=5, 19466033].
• Alù A, Salandrino A, Engheta N (2006) Negative effective permeability and left-handed materials at optical frequencies.
  Optics Express. [IF=1.434, Cited=43, 19503482].
• Lin SS, Yemelyanov KM, Pugh EN, Engheta N (2006) Separation and contrast enhancement of overlapping cast shadow
  components using polarization. Optics Express. [IF=1.434, Cited=11, 19529081].
• Alù A, Engheta N (2007) Plasmonic materials in transparency and cloaking problems: mechanism, robustness, and physical
  insights. Optics Express. [IF=1.434, Cited=44, 19532573].
• Gruev V, Ortu A, Lazarus N, ..., Engheta N (2007) Fabrication of a dual-tier thin film micropolarization array. Optics
  Express. [IF=1.434, Cited=28, 19532748].
• Alu A, Engheta N (2007) Cloaking and transparency for collections of particles with metamaterial and plasmonic covers.
  Optics Express. [IF=1.434, Cited=25, 19547084].
• Alu A, Engheta N (2007) Optical 'shorting wires'. Optics Express. [IF=1.434, Cited=3, 19550648].
• Alú A, Salandrino A, Engheta N (2007) Coupling of optical lumped nanocircuit elements and effects of substrates. Optics
  Express. [IF=1.434, Cited=3, 19550658].
• Castaldi G, Gallina I, Galdi V, ..., Engheta N (2009) Cloak/anti-cloak interactions. Optics Express. [IF=1.434,
  Cited=6, 19259146].
• Alù A, Engheta N (2009) The quest for magnetic plasmons at optical frequencies. Optics Express. [IF=1.434, Cited=27, 19333341].
• Engheta N, Pelet P (1989) Modes in chirowaveguides. Optics Letters. [IF=1.297, Cited=13, 19752907].
• Kowarz MW, Engheta N (1990) Spherical chirolenses. Optics Letters. [IF=1.297, Cited=2, 19759788].
• Engheta N, Pelet P (1991) Surface waves in chiral layers. Optics Letters. [IF=1.297, Cited=5, 19774050].
• Engheta N, Zablocky PG (1991) Effect of chirality on the transient signal wave front. Optics Letters. [IF=1.297,
  Cited=0, 19784182].
• Rowe MP, Pugh EN, Tyo JS, Engheta N (1995) Polarization-difference imaging: a biologically inspired technique for
  observation through scattering media. Optics Letters. [IF=1.297, Cited=42, 19859271].