Topic
Intersection curve
About: Intersection curve is a research topic. Over the lifetime, 441 publications have been published within this topic receiving 7788 citations.
Papers published on a yearly basis
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Papers
TL;DR: In this paper, the topographies of two potential energy surfaces are examined in the vicinity of their intersection, and two main patterns are found: peaked and sloped topologies are discussed explicitly.
Abstract: The topographies of two potential energy surfaces are examined in the vicinity of their intersection. A brief account of the basic theory is given and the possible surface types are discussed explicitly. Two main patterns are found. One of these (‘‘peaked’’) has the character of a tilted double cone in that the lower (upper) surface decreases (increases) in all directions from the intersection which is a point where an infinite number, in fact, all orthogonal trajectories emanate. The other pattern (‘‘sloped’’) results when both surfaces are monotonically sloped and touch each other along the slope, with most orthogonal trajectories bypassing the intersection. When the latter pattern prevails, the intersection can lie on a steepest descent line which originates at a transition state and hence may qualify as a reaction path model. An intermediate pattern, involving a horizontal slope on both surfaces, is also possible. The topographical patterns also differ markedly with respect to the bunching of the steepest descent lines. In general, the latter tend to veer away from the intersection on the lower surface favoring bifurcations, but are funneled towards the intersection on the upper surface, making the vicinity of the intersection a region favoring radiationless transitions. The various cases are classified and illustrated through quantitative graphs of contours and orthogonal trajectories.
477 citations
TL;DR: An algorithm to test whether their intersection is empty, and if so to find a separating plane, and to construct their intersection polyhedron is developed, which runs in timeO (n log n), where n is the sum of the numbers of vertices of the two polyhedra.
351 citations
TL;DR: An algorithm for drawing pictures of three-dimensional objects, with surfaces made up of patches of quadric surfaces, is described, which can find the coordinates of points of even quartic (fourth-order) intersection curves, using equations of no more than second order.
Abstract: An algorithm for drawing pictures of three-dimensional objects, with surfaces made up of patches of quadric surfaces, is described. The emphasis of this algorithm is on calculating the intersections of quadric surfaces. A parameterization scheme is used. Each quadric surface intersection curve (QSIC) is represented as a set of coefficients and parameter limits. Each value of the parameter represents at most two points, and these may easily be distinguished. This scheme can find the coordinates of points of even quartic (fourth-order) intersection curves, using equations of no more than second order. Methods of parameterization for each type of QSIC are discussed, as well as surface bounding and hidden surface removal.
192 citations
TL;DR: For a nonsingular model of a curve defined over a number field, a theory analogous to the theory of divisors, and the intersection numbers of diviators, on a compact algebraic surface is given in this paper.
Abstract: In this article it is explained how to construct for a nonsingular model of a curve defined over a number field a theory analogous to the theory of divisors, and the intersection numbers of divisors, on a compact algebraic surface.
163 citations
TL;DR: In this article, the authors classified adiabatic electronic orbital potential energy surfaces for triatomic systems according to the point group in which the intersection occurs, and the following geometrical properties.
Abstract: Intersections of adiabatic electronic orbital potential energy surfaces for triatomic systems can be classified according to the point group in which the intersection occurs, and the following geometrical properties. The locus of the intersection in the three-dimensional configuration space of the system may be a surface, a curve or a point. When the locus is a curve, it may be of finite or infinite extent. In the neighbourhood of the intersection, the separation of the surfaces may be a linear, quadratic or higher order function of the displacement coordinates. In the asymptotic case, the surfaces intersect only when one atom is infinitely far from the other two. The various types of intersections are described and examples cited.
92 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2022 | 1 |
| 2021 | 6 |
| 2020 | 4 |
| 2019 | 7 |
| 2018 | 9 |
| 2017 | 8 |