Additional Reading (by the contributors)
- Ivan Biaggio, “From molecules to materials: in-situ poling during small-molecule self-assembly?”
- Hengky Chandrahalim, “Micro-ring
resonators for magneto-electric experimentation.”
- Koen Clays, “Functionalized carbon
nanotubes as implementations of hybrid nanowires.”
- Stefano Corni, "Optical properties of molecules close to metal nanoparticles: simulations in the time domain."
- Ethan Crowell, “Using excited
states and degeneracies to enhance the electric polarizability and first
hyperpolarizability.”
- Luis Gonzalez-Urbina, “Nonlinear
Optical Properties of Colloidal Photonic Crystals.”
- Rachel Grange, “Metal-oxide
nanostructures to enhance nonlinear optical signal for compact photonic devices.”
- Martti Kauranen, “Resonances and
local fields in nonlinear metasurfaces.” (Tutorial)
- Kenneth Knappenberger, “Examining
metal nanostructures using multi-dimensional femtosecond absorption
spectroscopy.”
- Mark Kuzyk, “A grand tour of sum
rules, size and limits.” (Tutorial)
- Alexander Lou, “Third order and
Magneto-Electric response of Twisted Chromophores.”
- Rick Lytel, “Designing molecular
materials for nonlinear optical devices.”
- Sean Mossman, “Sum rule
constrained proxy state for use in truncated hyperpolarizability calculations.”
- Anna Painelli, “From molecules to
materials: spectral properties of dyes and aggregates.”
- Javier Perez-Moreno, “Applying
sum-rules to interpret experimental data.”
- Aleks Rebane, “Absorption of light
by resonant media: From linear response to self-induced transparency.”
- Richard Robinett, “Exact results
for infinite supersymmetric hierarchies of familiar 1D potentials on the
half-line: Applications to quantum mechanical sum rules.”
- Marlan Scully, “From Black Holes
to Black Mold.” (Tutorial)
- Ruchira Silva, “Investigating the
fate of photoexcited perovskites.”
- Ken Singer, “Linear and nonlinear
optics in organic cavity polaritons.”
- Tuan Trinh, “Generation of rotations
in small molecules with magneto-electric nonlinearities.”
- Hans-Peter Wagner, “Z-scan
measurements on thin PTCDA and Alq3 films using tightly focused and high
repetition-rate laser pulses.”