Neuromorphic computing systems may be the future of computing and cluster-based networks are a promising architecture for the realization of these systems. The creation and dissolution of synapses between the clusters are of great importance for their function. In this work, we model the thermal breakage of a gold nanofilament located between two gold nanoparticles via molecular dynamics simulations to study on the mechanisms of neuromorphic nanoparticle-based devices. We employ simulations of Au nanowires of different lengths ($2-8$ nm), widths ($0.4-0.8$ nm) and shapes connecting two Au$_{1415}$ nanoparticles (NPs) and monitor the evolution of the system via a detailed structural identification analysis. We found that atoms of the nanofil...
2013-02-07This dissertation is focused on multimillion-atom molecular dynamics (MD) simulations of n...
The strength of true metallic nanowires and nanopillars (diameters below 100 nm) is known to be high...
During the last two decades, the study of the properties of nanowires has been one of the keystones ...
Neuromorphic computing systems may be the future of computing and cluster-based networks are a promi...
Atomic cluster-based networks represent a promising architecture for the realization of neuromorphic...
Conventional computer power has increased dramatically over the last 50 years due to reduction in th...
We perform a large-scale statistical analysis (>2000 independent simulations) of the elongation and ...
Self-assembled networks of nanoparticles and nanowires have recently emerged as promising systems f...
We report a detailed study of neuromorphic switching behaviour in inherently complex percolating net...
Gold nanoclusters have been shown to be a most promising nanomaterial with a wide range of potential...
Engineering smart-materials with emergent properties requires designing and characterizing systems w...
Neuromorphic networks are formed by random self-assembly of silver nanowires. Silver nanowires are c...
Computers have grown exponentially more powerful for decades, and so too has their ubiquity in human...
Real time imaging experiments with metal nanowires (NWs), in particular gold under stress, that show...
IEEE Nature-inspired neuromorphic architectures are being explored as an alternative to imminent lim...
2013-02-07This dissertation is focused on multimillion-atom molecular dynamics (MD) simulations of n...
The strength of true metallic nanowires and nanopillars (diameters below 100 nm) is known to be high...
During the last two decades, the study of the properties of nanowires has been one of the keystones ...
Neuromorphic computing systems may be the future of computing and cluster-based networks are a promi...
Atomic cluster-based networks represent a promising architecture for the realization of neuromorphic...
Conventional computer power has increased dramatically over the last 50 years due to reduction in th...
We perform a large-scale statistical analysis (>2000 independent simulations) of the elongation and ...
Self-assembled networks of nanoparticles and nanowires have recently emerged as promising systems f...
We report a detailed study of neuromorphic switching behaviour in inherently complex percolating net...
Gold nanoclusters have been shown to be a most promising nanomaterial with a wide range of potential...
Engineering smart-materials with emergent properties requires designing and characterizing systems w...
Neuromorphic networks are formed by random self-assembly of silver nanowires. Silver nanowires are c...
Computers have grown exponentially more powerful for decades, and so too has their ubiquity in human...
Real time imaging experiments with metal nanowires (NWs), in particular gold under stress, that show...
IEEE Nature-inspired neuromorphic architectures are being explored as an alternative to imminent lim...
2013-02-07This dissertation is focused on multimillion-atom molecular dynamics (MD) simulations of n...
The strength of true metallic nanowires and nanopillars (diameters below 100 nm) is known to be high...
During the last two decades, the study of the properties of nanowires has been one of the keystones ...