Please enable JavaScript.
Coggle requires JavaScript to display documents.
optical force in a plasmonic dimer, extinction coefficient of plasmonic…
optical force in a plasmonic dimer
ensure understanding of the nature of plasmonic interactions
that cause the force
what are the dependencies: distance, dimer size, excitation wavelegnth
determine proper geometry
proper dimer size
proper gap size / range of interaction
fabricate and FIB
sample with dimers
sample with metal edge
-sample with nothing
perform experiments with varied experimental parameters
excitation polarization
reflection mode and polarization contrast mode
excitation wavelength variation (explore plas. abs. spec.)
determine optical force and dependencies from nanomechanical behavior
write paper
extinction coefficient of plasmonic structure
ensure understanding of extinction in plasmonic structures
edges
nanoparticles
arrange setup for transmission measurements
use Nicolas' Au edge samples
to determine behavior -- proof of concept
develop new samples with variations in plasmonic structure geometry
non-dimers
determine extinction coefficient from thermally-induced resonance shifts
write paper
non-radiative heat losses in QDs in FRET system
ensure understanding of proper QD size choice and DNA linker distancing
contact Miao's bio-QD tagging group
and obtain sample
successfully place on trampoline
perform experiments
at proper wavelength
deduce non-radiative loss in interdot FRET
write paper
**