Surface Plasmon Amplification by Stimulated Emission of Radiation:<? format?> Quantum Generation of Coherent Surface Plasmons in Nanosystems DJ Bergman, MI Stockman Physical review letters 90 (2), 027402, 2003 | 2223 | 2003 |
Plasmon hybridization in nanoparticle dimers P Nordlander, C Oubre, E Prodan, K Li, MI Stockman Nano letters 4 (5), 899-903, 2004 | 2065 | 2004 |
Nanofocusing of optical energy in tapered plasmonic waveguides MI Stockman Physical review letters 93 (13), 137404, 2004 | 1590 | 2004 |
Nanoplasmonics: past, present, and glimpse into future MI Stockman Optics express 19 (22), 22029-22106, 2011 | 1338 | 2011 |
Self-similar chain of metal nanospheres as an efficient nanolens K Li, MI Stockman, DJ Bergman Physical review letters 91 (22), 227402, 2003 | 1081 | 2003 |
Ultrafast active plasmonics KF MacDonald, ZL Sámson, MI Stockman, NI Zheludev Nature Photonics 3 (1), 55-58, 2009 | 974 | 2009 |
Optical-field-induced current in dielectrics A Schiffrin, T Paasch-Colberg, N Karpowicz, V Apalkov, D Gerster, ... Nature 493 (7430), 70-74, 2013 | 815 | 2013 |
Controlling dielectrics with the electric field of light M Schultze, EM Bothschafter, A Sommer, S Holzner, W Schweinberger, ... Nature 493 (7430), 75-78, 2013 | 698 | 2013 |
Nanoplasmonics: The physics behind the applications MI Stockman Physics Today 64 (2), 39-44, 2011 | 646 | 2011 |
Attosecond metrology: from electron capture to future signal processing F Krausz, MI Stockman Nature Photonics 8 (3), 205-213, 2014 | 522 | 2014 |
The spaser as a nanoscale quantum generator and ultrafast amplifier MI Stockman Journal of Optics 12 (2), 024004, 2010 | 521 | 2010 |
Spasers explained MI Stockman Nature Photonics 2 (6), 327-329, 2008 | 497 | 2008 |
Localization versus delocalization of surface plasmons in nanosystems: can one state have both characteristics? MI Stockman, SV Faleev, DJ Bergman Physical review letters 87 (16), 167401, 2001 | 479 | 2001 |
Coherent control of femtosecond energy localization in nanosystems MI Stockman, SV Faleev, DJ Bergman Physical review letters 88 (6), 067402, 2002 | 399 | 2002 |
Attosecond nanoplasmonic-field microscope MI Stockman, MF Kling, U Kleineberg, F Krausz Nature Photonics 1 (9), 539-544, 2007 | 394 | 2007 |
Enhanced Raman scattering by fractal clusters: Scale-invariant theory MI Stockman, VM Shalaev, M Moskovits, R Botet, TF George Physical Review B 46 (5), 2821, 1992 | 368 | 1992 |
Plasmonic generation of ultrashort extreme-ultraviolet light pulses IY Park, S Kim, J Choi, DH Lee, YJ Kim, MF Kling, MI Stockman, SW Kim Nature Photonics 5 (11), 677-681, 2011 | 353 | 2011 |
Roadmap on plasmonics MI Stockman, K Kneipp, SI Bozhevolnyi, S Saha, A Dutta, J Ndukaife, ... Journal of Optics 20 (4), 043001, 2018 | 339 | 2018 |
Criterion for Negative Refraction with Low Optical Losses<? format?> from a Fundamental Principle of Causality MI Stockman Physical Review Letters 98 (17), 177404, 2007 | 312 | 2007 |
Controlled near-field enhanced electron acceleration from dielectric nanospheres with intense few-cycle laser fields S Zherebtsov, T Fennel, J Plenge, E Antonsson, I Znakovskaya, A Wirth, ... Nature Physics 7 (8), 656-662, 2011 | 295 | 2011 |