Analysis of the Effect of Tilted Corner Cube Reflector Arrays on Lunar Laser Ranging

Author:

Cao Jin123ORCID,Tang Rufeng1,Huang Kai13,Li Zhulian1,Yang Yongzhang1,Huang Kai2,Li Jintao1,Li Yuqiang1ORCID

Affiliation:

1. Yunnan Observatories, Chinese Academy of Sciences, Kunming 650216, China

2. College of Mathematics and Physics, Leshan Normal University, Leshan 614000, China

3. University of Chinese Academy of Sciences, Beijing 100049, China

Abstract

This paper primarily investigates the effect of the tilt of corner cube reflector (CCR) arrays on lunar laser ranging (LLR). A mathematical model was established to study the random errors caused by the tilt of the CCR arrays. The study found that, ideally, when the laser ranging pulse width is 10 picoseconds or less, it is possible to distinguish from which specific corner cubes within the CCR array each peak in the echo signal originates. Consequently, partial data from the echo can be extracted for signal processing, significantly reducing random errors and improving the single-shot precision of LLR. The distance obtained by extracting part of the echo can be reduced to the center position of the array, thereby providing multiple higher-precision ranging results from each measurement. This not only improves the precision of LLR but also increases the data volume. A simulation experiment based on the 1.2 m laser ranging system at Yunnan Observatories was conducted. By extracting one peak for signal processing, the single-shot precision improved from 32.24 mm to 2.52 mm, validating the theoretical analysis results. Finally, an experimental laser ranging system based on a 53 cm binocular telescope system was established for ground experiments. The experimental results indicated that the echo signal could identify the tilt state of the CCR array. By extracting the peak returned by the central CCR for signal processing, the ranging precision was greatly improved. Through theoretical analyses, simulation experiments, and ground experiments, a solution to reduce the random errors caused by the tilt of the CCR array was provided. This offers an approach to enhance the single-shot precision of future LLR and provides a reference for upgrading ground-based equipment at future laser ranging stations.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

Yunnan Province Foundation

International Partnership Program of the Chinese Academy of Sciences

Guangdong Major Project of Basic and Applied Basic Research

Open Fund of the Key Laboratory for Space Effect Detection and Application in Southwest Sichuan, Sichuan Higher Education Institutions

Publisher

MDPI AG

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