18,793 research outputs found
An organic nanoparticle transistor behaving as a biological synapse
Molecule-based devices are envisioned to complement silicon devices by
providing new functions or already existing functions at a simpler process
level and at a lower cost by virtue of their self-organization capabilities.
Moreover, they are not bound to von Neuman architecture and this feature may
open the way to other architectural paradigms. Neuromorphic electronics is one
of them. Here we demonstrate a device made of molecules and nanoparticles, a
nanoparticle organic memory filed-effect transistor (NOMFET), which exhibits
the main behavior of a biological spiking synapse. Facilitating and depressing
synaptic behaviors can be reproduced by the NOMFET and can be programmed. The
synaptic plasticity for real time computing is evidenced and described by a
simple model. These results open the way to rate coding utilization of the
NOMFET in dynamical neuromorphic computing circuits.Comment: To be publsihed in Adv. Func. Mater. Revised version. One pdf file
including main paper and supplementary informatio
Superresolution without Separation
This paper provides a theoretical analysis of diffraction-limited
superresolution, demonstrating that arbitrarily close point sources can be
resolved in ideal situations. Precisely, we assume that the incoming signal is
a linear combination of M shifted copies of a known waveform with unknown
shifts and amplitudes, and one only observes a finite collection of evaluations
of this signal. We characterize properties of the base waveform such that the
exact translations and amplitudes can be recovered from 2M + 1 observations.
This recovery is achieved by solving a a weighted version of basis pursuit over
a continuous dictionary. Our methods combine classical polynomial interpolation
techniques with contemporary tools from compressed sensing.Comment: 23 pages, 8 figure
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