1. Direct visualization of near-fields in nanoplasmonics and nanophotonics
- Author
-
Ahmed H. Zewail and Aycan Yurtsever
- Subjects
Materials science ,Silver ,Nanophotonics ,Physics::Optics ,Nanoparticle ,Metal Nanoparticles ,Bioengineering ,Nanotechnology ,Photometry ,Electric field ,Materials Testing ,General Materials Science ,Plasmon ,business.industry ,Mechanical Engineering ,General Chemistry ,Equipment Design ,Surface Plasmon Resonance ,Condensed Matter Physics ,Equipment Failure Analysis ,Optoelectronics ,Particle size ,Photonics ,business ,Ultrashort pulse ,Excitation - Abstract
Electric fields of nanoscale particles are fundamental to our understanding of nanoplasmonics and nanophotonics. Success has been made in developing methods to probe the effect of their presence, but it remains difficult to directly image optically induced electric fields at the nanoscale and especially when ensembles of particles are involved. Here, using ultrafast electron microscopy, we report the space-time visualization of photon-induced electric fields for ensembles of silver nanoparticles having different sizes, shapes, and separations. The high-field-of-view measurements enable parallel processing of many particles in the ensemble with high throughput of information. Directly in the image, the evanescent fields are observed and visualized when the particles are polarized with the optical excitation. Because the particle size is smaller than the wavelength of light, the near-fields are those of nanoplasmonics and are precursors of far-field nanophotonics. The reported results pave the way for quantitative studies of fields in ensembles of complex morphologies with the nanoparticles being embedded or interfacial.
- Published
- 2012