Design of new multipass gas cells with circular and elliptical cross‐section

During this study we constructed a generalized parametric modified four-objective multipass matrix system (MMS). We used an optical system comprising four asymmetrical spherical mirrors to improve the alignment process. The use of a paraxial equation for the design of the front transfer optics yielded the initial condition for modeling our MMS. We performed a ray tracing simulation to calculate the significant aberration of the system (astigmatism). Based on the calculated meridional and sagittal focus positions, the complementary focusing mirror was easily designed to provide an output beam free of astigmatism. We have presented an example of a 108-transit multipass system (5×7 matrix arrangement) with a relatively larger numerical aperture source (xenon light source). The whole system exhibits zero theoretical geometrical loss when simulated with Zemax software. The MMS construction strategy described in this study provides an anastigmatic output beam and the generalized approach to design a controllable matrix spot pattern on the field mirrors. Asymmetrical reflective mirrors aid in aligning the whole system with high efficiency. With the generalized design strategy in terms of optics configuration and asymmetrical fabrication method in this paper, other kinds of multipass matrix system coupled with different sources and detector systems also can be achieved.

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Generalized design of a zero-geometric-loss, astigmatism-free, modified four-objective multipass matrix system

Guo

Sun

Yang

et al. 2016

Appl. Opt.

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Design of new multipass gas cells with circular and elliptical cross‐section

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References 8 publications

Generalized design of a zero-geometric-loss, astigmatism-free, modified four-objective multipass matrix system

Generalized design of a zero-geometric-loss, astigmatism-free, modified four-objective multipass matrix system

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