By Keith B. Doyle, Victor L. Genberg, Gregory J. Michels
This educational offers optomechanical modeling options to successfully layout and learn high-performance optical structures. It discusses thermal and structural modeling equipment that use finite-element research to foretell the integrity and function of optical components and optical help constructions. contains accompanying CD-ROM with examples.
- advent to Mechanical research utilizing Finite Elements
- Optical Fundamentals
- Optomechanical Displacement research Methods
- built-in Optomechanical Analyses
- Modeling the results of Temperature
- Adaptive Optics research Methods
- Optimization of Optomechanical Systems
- instance Telescope Analysis
- built-in Optomechanical research of a Lens Assembly
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Extra resources for Integrated Optomechanical Analysis
Solve by some form of a Newton’s method or other iterative scheme. 27) Linear buckling analysis: eigenvalue problem. Solve by Lanczos’s method. 28) Linear transient analysis: general time varying load. Solve by a numerical integration technique M U″ + C U′ + K U = P(t). 29) Nonlinear transient analysis: general time-varying load with contact, nonlinear materials, and large displacements. 30) Direct-frequency response analysis: steady-state harmonic condition. Solve like a linear static analysis except with complex mathematics.
12, respectively. Both 3D isometric views and intensity plots of the PSF are shown. The intensity plot uses a logarithmic scale to reveal the ring structure of the PSF more clearly. Notice how the energy in the aberrated case is spread over a much larger diameter than the aberration-free system. 3 Encircled energy function The encircled energy is a plot of the energy contained in circles of increasing diameter versus the diameter of the circle. The circles are centered on the image centroid. An example of the encircled energy is plotted in Fig.
The circles are centered on the image centroid. An example of the encircled energy is plotted in Fig. 13 for the aberration-free PSF and the aberrated PSF shown in Figs. 12. 10 Spot diagram formed by a singlet lens exhibiting spherical aberration. 11 PSF for aberration-free system. 12 PSF for a system with coma error. 13 Encircled energy. 3 Optical resolution The ability of an optical system to resolve two objects is a common measure of optical performance. For example, the Hubble Space Telescope can resolve two dimes from approximately 30 miles away.
Integrated Optomechanical Analysis by Keith B. Doyle, Victor L. Genberg, Gregory J. Michels