Wu C, Khanikaev AB, Adato R, Arju N, Yanik AA, Altug H, Shvets G. Fano-resonant asymmetric metamaterials for ultrasensitive spectroscopy and identification of molecular monolayers. Nature Materials [Internet]. 11 (69). Publisher's Version

Mousavi HS, Khanikaev AB, Shvets G. Optical properties of Fano-resonant metallic metasurfaces on a substrate. Phys. Rev. B. [Internet]. 85 (155429). Publisher's Version

Lu Y-J, Kim J, Chen H-Y, Wu C, Dabidian N, Sanders CE, Wang C-Y, Lu M-Y, Li B-H, Qiu X, et al. Plasmonic Nanolaser Using Epitaxially Grown Silver Film. Science [Internet]. 337 (450). Publisher's Version

Khanikaev AB, Mousavi HS, Wu C, Dabidian N, Alici KB, Shvets G. Electromagnetically Induced Polarization Conversion. Optics Communications. 285 (3423).

Wu C, Shvets G. Design of metamaterial surfaces with broadband absorbance. Optics Letters [Internet]. 37 (308). Publisher's Version

Wu C, III BN, John J, Milder A, Zollars B, Savoy S, Shvets G. Metamaterial-based integrated plasmonic absorber/emitter for solar thermophotovoltaic systems. Journal of Optics [Internet]. 14 (24005). Publisher's Version

Kholmanov IN, Magnuson C, Aliev AE, Li H, Zhang B, Suk JW, Zhang L, Peng E, Mousavi HS, Khanikaev A, et al. Improved Electrical Conductivity of Graphene Films Integrated with Metal Nanowires. Nano Letters [Internet]. 12 (5679). Publisher's Version

Li B-H, Sanders CE, McIlhargey J, Cheng F, Gu C, Zhang G, Wu K, Kim J, Mousavi H, Khanikaev AB, et al. Contrast between SPP-mediated EOT behavior in epitaxial and polycrystalline Ag films in the mid- and far-infrared regimes. Nano Letters [Internet]. 12 (6187 ). Publisher's Version

Shvets G. Viewpoint: Not Every Exit is an Entrance. Physics [Internet]. 5 (78). Publisher's Version

Wu C, Khanikaev AB, Shvets G. Broadband Slow Light Metamaterial Based on a Double-Continuum Fano Resonance. Phys. Rev. Lett. [Internet]. 106 (107403 ). Publisher's Version

Kalmykov SY, Yi SA, Beck A, Lifschitz AF, Davoine X, Lefebvre E, Khudik V, Shvets G, Downer MC. Dark-current-free petawatt laser-driven wakefield accelerator based on electron self-injection into an expanding plasma bubble. Plasma Phys. Control. Fusion [Internet]. 53 (14006 ). Publisher's Version

Fan JA, He Y, Bao K, Wu C, Bao J, Schade NB, Manoharan VN, Shvets G, Nordlander P, Liu DR, et al. DNA-Enabled Self-Assembly of Plasmonic Nanoclusters. Nano Letters [Internet]. 11 (4859). Publisher's Version

Yi SA, Khudik V, Kalmykov SY, Shvets G. Hamiltonian analysis of electron self-injection and acceleration into an evolving plasma bubble. Plasma Phys. Control. Fusion [Internet]. 53 (14012). Publisher's Version

Fietz C, Shvets G. Homogenization theory for simple metamaterials modeled as one-dimensional arrays of thin polarizable sheets. Phys. Rev. B [Internet]. 82 ( 205128 ). Publisher's Version

Wu C, III BN, Shvets G. Large-area wide-angle spectrally selective plasmonic absorber. Phys. Rev. B [Internet]. 84 ( 75102). Publisher's Version

Alonso-Gonzalez P, Schnell M, Sarriugarte P, Sobhani H, Wu C, Arju N, Khanikaev A, Golmar F, Golmar F, Arzubiaga L, et al. Real-Space Mapping of Fano Interference in Plasmonic Metamolecules. Nano Letters [Internet]. 11 (3922). Publisher's Version

Yanik AA, Cetin AE, Huang M, Artar A, Mousavi HS, Khanikaev A, Connor JH, Shvets G, Altug H. Seeing protein monolayers with naked eye through plasmonic Fano resonances. PNAS [Internet]. 108 (11784). Publisher's Version

Yu TP, Pukhov A, Shvets G, Chen M, Ratliff TH, Yi SA, Khudik V. Simulations of stable compact proton beam acceleration from a two-ion-species ultrathin foil. Phys. Plasmas [Internet]. 18 (43110). Publisher's Version

Mousavi HS, Khanikaev AB, III BN, Fozdar DY, Corrigan TD, Kolb PW, Drew DH, Phaneuf RJ, Alù A, Shvets G. Suppression of long-range collective effects in meta-surfaces formed by plasmonic antenna pairs (invited paper). Optics Express [Internet]. 19 (22142). Publisher's Version

Rajasekhara S, III NB, Zorman CA, Jegenyes N, Ferro G, Shvets G, Ferreira PJ, Kovar D. The influence of impurities and planar defects on the infrared properties of silicon carbide films. Appl. Phys. Lett. [Internet]. 98 (191904). Publisher's Version