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Automated Learning of a Dense Manifold of Electronic States and Electronic Energy Transfer and Reactions in Singlet O Collisions with N<sub>2</sub>. [PDF]
Meng Q +4 more
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Reconstructing Waddington's landscape from data. [PDF]
Cislo DJ +3 more
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Investigating slant curves within Lorentzian doubly warped product manifolds. [PDF]
Elsharkawy A +3 more
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Representational learning by optimization of neural manifolds in an olfactory memory network
Friedrich R +7 more
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Emergent behaviors of relativistic flocks on Riemannian manifolds
Physica A: Statistical Mechanics and its Applications, 2021We present a relativistic counterpart of the Cucker-Smale(CS) model on Riemannian manifolds (manifold RCS model in short) and study its collective behavior. For Euclidean space, the relativistic Cucker-Smale (RCS) model was introduced in Ha et al. (2020)
Hyunjin Ahn +3 more
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Calabi-Yau manifolds with isolated conical singularities
, 2016Let X$X$ be a complex projective variety with only canonical singularities and with trivial canonical bundle. Let L$L$ be an ample line bundle on X$X$.
H. Hein, Song Sun
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Nonlinear Analysis, 2020
The following Kolmogorov system of impulsive differential equations with variable impulsive perturbations is considered: \begin{align*} \dot{u}_i(t) &= u_i(t)f_i(t, u(t)),\;\; t\not= \tau_k(u(t)),\\ \Delta u_i(t) &= I_{ik}(u_i(t)),\;\; t= \tau_k(u(t)), \end{align*} where \(f_i: [t_0, \infty)\times\mathbb{R}^N_+\to\mathbb{R}\), \(I_{ik}: \mathbb{R}_+\to\
Ivanka M. Stamova, Gani Tr. Stamov
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The following Kolmogorov system of impulsive differential equations with variable impulsive perturbations is considered: \begin{align*} \dot{u}_i(t) &= u_i(t)f_i(t, u(t)),\;\; t\not= \tau_k(u(t)),\\ \Delta u_i(t) &= I_{ik}(u_i(t)),\;\; t= \tau_k(u(t)), \end{align*} where \(f_i: [t_0, \infty)\times\mathbb{R}^N_+\to\mathbb{R}\), \(I_{ik}: \mathbb{R}_+\to\
Ivanka M. Stamova, Gani Tr. Stamov
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Photocatalytic Late-Stage C-H Functionalization.
Chemical Reviews, 2023The emergence of modern photocatalysis, characterized by mildness and selectivity, has significantly spurred innovative late-stage C-H functionalization approaches that make use of low energy photons as a controllable energy source.
Peter Bellotti +3 more
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