Researchers at the University of Illinois at Urbana-Champaign have demonstrated that an array of novel gold, pillar-bowtie nanoantennas (pBNAs) can be used like traditional photographic film to record light for distances that are much smaller than the wavelength of light (for example, distances less than ~600 nm for red light). A standard optical microscope acts as a “nanocamera” whereas the pBNAs are the analogous film. This is an image of the Illinois “Block I ” logo recorded by the plasmonic film. Each bar in the letter is approximately 6 micrometers. “Unlike conventional photographic film, the effect (writing and curing) is seen in real time,” explained Kimani Toussaint, an associate professor of mechanical science and engineering, who led the research. “We have demonstrated that this multifunctional plasmonic film can be used to create optofluidic channels without walls. Because simple diode lasers and low-input power densities are sufficient to record near-field optical information in the pBNAs, this increases the potential for optical data storage applications using off-the-shelf, low-cost, read-write laser systems.” “Particle manipulation is the proof-of-principle application,” stated Brian Roxworthy, first author of the group’s paper, “Multifunctional Plasmonic Film for Recording Near-Field Optical Intensity,” published in the journal, Nano Letters. “Specifically, the trajectory
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