1 research outputs found
Unravelling Nonlinear Spectral Evolution Using Nanoscale Photonic Near-Field Point-to-Point Measurements
We
demonstrate nanoscale photonic point-to-point measurements characterizing
a single component inside an all-optical signal-processing chip. We
perform spectrally resolved near-field scanning optical microscopy
on ultrashort pulses propagating inside a slow light photonic crystal
waveguide, which is part of a composite sample. A power study reveals
a reshaping of the pulse’s spectral density, which we model
using the nonlinear Schrödinger equation. With the model, we
are able to identify the various physical processes governing the
nonlinear pulse propagation. Finally, we contrast the near-field measurements
with transmission measurements of the complete composite sample to
elucidate the importance of gaining local information about the evolution
of the spectral density