Abstract
In a Fizeau interferometer, off-axis illumination will lead to fringe optimization. Primarily due to the unique structure of our interferometer, we first analyze the influence of the optical properties of the parallel plate as a part of the interferometer on the optimal incident angle. Generally, the incident angle determination is mainly based on the graphing method proposed by Langenbeck and the estimation formula proposed by Kajava. However, Langenbeck’s method is cumbersome, and the error of Kajava’s estimation formula is large. Based on the predecessors, this paper proposes a modified method of determining the optimal angle of incidence and further derives more accurate optimal angle expressions than Kajava’s. By simply substituting the wedge angle of the wedge cavity and the reflectivity of the cavity, the optimum incidence angle can be obtained immediately. Thus, it eliminates the tedious and complex process of finding the optimum incident angle by graphing method and makes the formula method the simplest method to find the optimum incident angle. Finally, the comparison of the interference intensity at the optimum incidence angle calculated by the improved method and normal incidence is given. It is found that the beam has a good suppression effect on the sub-peak when it is incident at the optimum incident angle calculated by the method in this paper.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
There is a wedge-shaped air chamber with angle α composed by this parallel plate and another parallel plate plated with high reflection film
Since the estimation formula derived by Kajava is quite different from the value of the optimum incidence angle obtained by the graphing method, the latter method to determine the optimum incidence angle is still the mainstream method at present
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. By substituting the value of the wedge angle and the reflectivity of the wedge cavity, the accurate value of the optimum incidence angle can be obtained immediately It eliminates the tedious and complex process of finding the optimum incident angle by graphing method and makes the formula method the most straightforward choice for finding the optimum incident angle. The structure of this paper is as follows: In the second section, we analyze the modulation effect of the thickness of the parallel plate behind the wedge cavity on the spatial light intensity distribution and theoretically analyze the influence of the parallel plate on the value of the optimum incident angle. An improved graphing method is proposed to correct the distortion interference intensity by calculating the pole of the relationship between the sum of vector amplitude and incident angle Based on this method, a more accurate estimation expression of the optimum incident angle is obtained. It is found that the results obtained by the formula method are in good agreement with those obtained by the graphing method
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