Aberration coefficient:Structural aberration coefficients (Chapter 11)
Structural aberration coefficients (Chapter 11)
Inthischapterwediscussstructuralaberrationcoefficients.Structuralcoefficientssimplifythecalculationofaberrationcoefficientsandalsoprovide ...。其他文章還包含有:「AberrationCoefficient」、「Aberrationcoefficients(Chapter10)」、「Aberrationfunction」、「AppendixA」、「LensDesignOPTI517Seidelaberrationcoefficients」、「Opticalaberration」、「Seidelaberrationcoefficients」
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1. This defocus gives the widest possible band of spatial frequencies without any phase reversal, and the interpretable resolution is then given by δ∼0.66(Csλ3) ...
Aberration coefficients (Chapter 10)
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The aberration coefficients are calculated, notably, with ray tracing data from the chief and marginal first-order rays. We derive aberration coefficients for a ...
Aberration function
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An aberration expression omitting both, pupil and angle of incidence factors, is called aberration coefficient. Thus, it in effect expresses the relative form of aberration for unit pupil radius and angle. The expression that includes the actual pupil par
Appendix A
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In this book we have used the notation of Krivanek et al. (1999) who distinguish the aberration coefficients by means of two subscripts, the first denoting the ...
Lens Design OPTI 517 Seidel aberration coefficients
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aberration functions of each surface. Then for a system of surfaces the fourth- order coefficients are the sum of the coefficients contributed by each surface.
Optical aberration
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In optics, aberration is a property of optical systems, such as lenses, that causes light to be spread out over some region of space rather than focused to ...
Seidel aberration coefficients
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An alternative method to compute Seidel aberrations is presented that utilizes real pseudoparaxial skew rays traveling through a rotationally-symmetric lens ...