Nanoscale spectrum analyzer based on spin-wave interference.

We present the design of a spin-wave-based microwave signal processing device. The microwave signal is first converted into spin-wave excitations, which propagate in a patterned magnetic thin-film. An interference pattern is formed in the film and its intensity distribution at appropriate read-out locations gives the spectral decomposition of the signal.

A computational model for label-free detection of non-fluorescent biochromophores by stimulated emission.

We created a computational model to investigate the characteristics of label-free molecular detection by stimulated emission, which is the fundamental process of stimulated emission microscopy proposed and experimentally demonstrated by Min et al. In our model the molecule is considered to be a two-state quantum system with finite number of vibrational states. The laser excitations are modelled as zero order Gaussian beams.

Fluorescence in two-photon-excited diffusible samples exposed to photobleaching: a simulation-based study.

We created a simulation model to investigate the characteristics of fluorescence in two-photon-excited samples. In the model, the sample is a diffusible solution of fluorophore molecules, which is divided into cubic cells and illuminated by a train of focused laser pulses described as a Gaussian beam. Simulating the state transitions according to a multilevel photodynamic model (also including photobleaching and intersystem crossing), the simulator provides the expected number and the spatial distribution of emitted photons over time.

Bio-inspired nano-sensor-enhanced CNN visual computer.

Nanotechnology opens new ways to utilize recent discoveries in biological image processing by translating the underlying functional concepts into the design of CNN (cellular neural/nonlinear network)-based systems incorporating nanoelectronic devices. There is a natural intersection joining studies of retinal processing, spatio-temporal nonlinear dynamics embodied in CNN, and the possibility of miniaturizing the technology through nanotechnology. This intersection serves as the springboard for our multidisciplinary project.