Energy landscape approaches have become increasingly popular for analyzing a wide variety of chemical physics phenomena. Basic to many of these applications has been the inherent structure mapping, which divides up the potential energy landscape into basins of attraction surrounding the minima. Here, we probe the nature of this division by introducing a method to compute the basin area distribution and applying it to some archetypal supercooled liquids. We find that this probability distribution is a power law over a large number of decades with the lower-energy minima having larger basins of attraction. Interestingly, the exponent for this power law is approximately the same as that for a high-dimensional Apollonian packing, providing fur...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
The energy landscape of two-dimensional lattice polymers is investigated, using the so-called lid a...
Disconnectivity graphs are used to characterize the potential energy surfaces of Lennard-Jones clust...
Energy landscape approaches have become increasingly popular for analyzing a wide variety of chemica...
It has previously been shown that the network of connected minima on a potential energy landscape is...
By dividing potential energy landscapes into basins of attractions surrounding minima and linking th...
We calculate the statistical properties of the energy landscape of a minimal model for strong networ...
We use energy landscape methods to investigate the response of a supercooled liquid to random pinnin...
A general scheme is derived to connect transitions in configuration space with features in the heat ...
We study the relation of the potential energy landscape (PEL) topography to relaxation dynamics of a...
For a model glass former we demonstrate via computer simulations how macroscopic dynamic quantities ...
We study the dynamics in a simple hierarchical energy landscape. We compare a straightforward analyt...
Recent advances in the potential energy landscapes approach are highlighted, including both theoreti...
We review recent results on the topological properties of two spatial scale-free networks, the inher...
Properties of the free energy landscape in phase space of a dense hard sphere system characterized b...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
The energy landscape of two-dimensional lattice polymers is investigated, using the so-called lid a...
Disconnectivity graphs are used to characterize the potential energy surfaces of Lennard-Jones clust...
Energy landscape approaches have become increasingly popular for analyzing a wide variety of chemica...
It has previously been shown that the network of connected minima on a potential energy landscape is...
By dividing potential energy landscapes into basins of attractions surrounding minima and linking th...
We calculate the statistical properties of the energy landscape of a minimal model for strong networ...
We use energy landscape methods to investigate the response of a supercooled liquid to random pinnin...
A general scheme is derived to connect transitions in configuration space with features in the heat ...
We study the relation of the potential energy landscape (PEL) topography to relaxation dynamics of a...
For a model glass former we demonstrate via computer simulations how macroscopic dynamic quantities ...
We study the dynamics in a simple hierarchical energy landscape. We compare a straightforward analyt...
Recent advances in the potential energy landscapes approach are highlighted, including both theoreti...
We review recent results on the topological properties of two spatial scale-free networks, the inher...
Properties of the free energy landscape in phase space of a dense hard sphere system characterized b...
International audienceThe number of local minima of the potential energy landscape (PEL) of molecula...
The energy landscape of two-dimensional lattice polymers is investigated, using the so-called lid a...
Disconnectivity graphs are used to characterize the potential energy surfaces of Lennard-Jones clust...