C. Davies scite author profile

C. Davies

5Publications

8Citation Statements Received

67Citation Statements Given

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Classifying minimum energy states for interacting particles: Regular simplices

Davies¹,

Lim²,

McCann³

2021

Preprint

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Consider densities of particles on R n which interact pairwise through an attractive-repulsive power-law potential W α,β (x) = |x| α /α − |x| β /β in the mildly repulsive regime α ≥ β ≥ 2. For n ≥ 2, we show there exists β n ∈ (2, 4) and a decreasing homeomorphism α ∆ n of [2, β n ] onto [β n , 4] which can be extended (non-homeomorphically) by setting α ∆ n (β) = β for β > β n such that: distributing the particles uniformly over the vertices of a regular unit diameter n-simplex minimizes the potential energy if and only if α ≥ α ∆ n (β). Moreover this minimum is uniquely attained up to rigid motions when α > α ∆ n (β). We estimate α ∆ n (β) above and below, and identify its limit as the dimension grows large. These results are derived from a new northeast comparison principle in the space of exponents. At the endpoint (α, β) = (4, 2) of this transition curve, we characterize all minimizers by showing they lie on a sphere and share all first and second moments with the spherical shell. Suitably modified versions of these statements are also established for n = 1, and for the attractive-repulsive potentials D α (x) = |x| α (α log |x| − 1) that arise in the limit β α.

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Classifying minimum energy states for interacting particles: Spherical Shells

Davies¹,

Lim²,

McCann³

2021

Preprint

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Particles interacting through long-range attraction and short-range repulsion given by power-laws have been widely used to model physical and biological systems, and to predict or explain many of the patterns they display. Apart from rare values of the attractive and repulsive exponents (α, β), the energy minimizing configurations of particles are not explicitly known, although simulations and local stability considerations have led to conjectures with strong evidence over a much wider region of parameters. For a segment β = 2 < α < 4 on the mildly repulsive frontier we employ strict convexity to conclude that the energy is uniquely minimized (up to translation) by a spherical shell. In a companion work, we show that in the mildly repulsive range α > β ≥ 2, a unimodal threshold 2 < α ∆ n (β) ≤ max{β, 4} exists such that equidistribution of particles over a unit diameter regular n-simplex minimizes the energy if and only if α ≥ α ∆ n (β) (and minimizes uniquely up to rigid motions if strict inequality holds). At the point (α, β) = (2, 4) separating these regimes, we show the minimizers all lie on a sphere and are precisely characterized by sharing all first and second moments with the spherical shell. Although the minimizers need not be asymptotically stable, our approach establishes d α -Lyapunov nonlinear stability of the associated (d 2 -gradient) aggregation dynamics near the minimizer in both of these adjacent regimeswithout reference to linearization. The L α -Kantorovich-Rubinstein distance d α which quantifies stability is chosen to match the attraction exponent.

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National Coal Board Service

Davies¹

1973

Journal of Aerosol Science

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Health Hazards in the Coal and Chemical Industries

Davies¹

1956

Nature

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National Coal Board Medical Service and Medical Research Annual Report, 1970–1971

Davies¹

1972

Journal of Aerosol Science

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C. Davies

Classifying minimum energy states for interacting particles: Regular simplices

Classifying minimum energy states for interacting particles: Spherical Shells

National Coal Board Service

Health Hazards in the Coal and Chemical Industries

National Coal Board Medical Service and Medical Research Annual Report, 1970–1971

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