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《OPTICAL DESIGN OF SINGLE REFLECTOR》.pdf

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Journal of Mathematical Sciences, Vol. 117, No. 3, 2003 OPTICAL DESIGN OF SINGLE REFLECTOR SYSTEMS AND THE MONGE–KANTOROVICH MASS TRANSFER PROBLEM T. Glimm and V. Oliker UDC 514; 517.95 We consider the problem of designing a reflector that transforms a spherical wave front with a given intensity into an output front illuminating a prespecified region of the far-sphere with prescribed intensity. In earlier approaches, it was shown that in the geometric optics approximation this problem is reduced to solving a second order nonlinear elliptic partial ` differential equation of Monge–Ampere type. We show that this problem can be solved as a variational problem within the framework of Monge–Kantorovich mass transfer problem. We develop the techniques used in [1], where the design problem for a system with two reflectors was considered. An important consequence of this approach is that the design problem can be solved numerically by tools of linear programming. A known convergent numerical scheme for this problem [2] was based on the construction of very special approximate solutions to the ` : 14 titles. corresponding Monge–Ampere equation. Bibliography § 1. Introduction In this paper, we study the following inverse problem of geometric optics. We consider a reflector system consisting of a point source of light O illuminating through an aperture Ωa perfect reflector R . Let I (m) be the intensity of the source in the direction m. If the reflector R is known, we can determine a region T on the far-sphere covered by the reflected rays and calculate the intensity L (y ) in the refl
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