Your search keyword '"Zheng-Xiong Sun"' showing total 14 results

1. Using the Optical Pointing System to Build the Pointing Model of the Tianma 13 m Telescope

Author

Zheng-xiong, SUN, Yin-dun, MAO, Jin-qing, WANG, Hao, LUO, Jing-hui, ZHENG, and Guang-li, WANG

Published

2023

2. Adjustment Method of Main Reflector for a Large Radio Telescope.

Author

Zheng-xiong, Sun, Jin-qing, Wang, Lin-feng, Yu, Zhi-bin, Zhang, and Guang-li, Wang

Subjects

*REFLECTOR antennas, *APERTURE antennas, *ANTENNAS (Electronics), *INTERSTELLAR communication, *SPACE astronomy

Abstract

The performance of the antennas, which plays an important role in millimeter-wave astronomy and space communication, is often limited by their reflector surface accuracy. Microwave holography is a fast and effective technique for measuring the surface profile of reflector antenna. In this paper, the antenna aperture phase profile is obtained by microwave holography to estimate the deviation between the reflector of the Tianma 65 m radio telescope and the ideal paraboloid. The panels of the Tianma 65 m radio telescope is in radial pattern with 14 rings. Each corner of the panel is fixed on the screw of the actuator to move up and down, and the adjacent corners of the four panels share an actuator. We use the method of plane fitting to calculate the adjustment value of every panels corner. But one actuator, which simultaneously controls the common corner of the adjacent panels, will have different adjustment values according to the plane fitting equation based on adjacent panels. In this paper, an adjustment value at the corner of the adjacent panel is obtained by plane fitting and adjustment calculation method with the antenna illumination function as the weight, that is, the optimal adjustment value of 1104 actuators of the Tianma 65 m radio telescope. Through many adjustments and the application of new algorithms, the surface accuracy of the reflector of the Tianma 65 m radio telescope has gradually improved to the current 0.24 mm. [ABSTRACT FROM AUTHOR]

Published

2024

3. Sensitivity Analysis of the Feed System for the TM VGOS Telescope

Author

Guangli Wang, Jin Qing Wang, and Zheng Xiong Sun

Subjects

Computer science, 0211 other engineering and technologies, 02 engineering and technology, 01 natural sciences, law.invention, Telescope, law, Range (aeronautics), 0103 physical sciences, Very-long-baseline interferometry, 021108 energy, Sensitivity (control systems), Antenna (radio), 010303 astronomy & astrophysics, Remote sensing

Abstract

The demand for higher precision measurements in Very Long Baseline Interferometry (VLBI) continues to grow, which drives the technical development of next generation international VLBI stations called the VLBI Global Observing System (VGOS). Up to now, there are several VGOS stations in the world. China also has built China’s VGOS station in Shanghai. The TM VGOS telescope is a new station with a diameter of 13.2 meters and a ring-focus sub-reflector, which works in the 3-14 Ghz range with dual-linear polarization to provide VGOS capability. In this paper we present the estimated performance, focusing on the achievable system equivalent flux density (SEFD) which is an important indicator of the antenna receiving system. In addition the measurement results and method of SEFD of the antenna system are introduced.

Published

2020

4. Antenna Noise Temperature of the Feed System for Shanghai VGOS Radio Telescope

Author

Guangli Wang, Jin Qing Wang, and Zheng Xiong Sun

Subjects

Physics, Noise temperature, 010308 nuclear & particles physics, business.industry, media_common.quotation_subject, Polarization (waves), 01 natural sciences, Radio telescope, Optics, Sky, 0103 physical sciences, Broadband, Very-long-baseline interferometry, Antenna noise temperature, Wideband, business, 010303 astronomy & astrophysics, media_common

Abstract

The demand for higher precision measurements in Very Long Baseline Interferometry (VLBI) continues to grow, which drives the technical development of next-generation international VLBI stations called the VLBI Global Observing System (VGOS). We have measured the noise temperature of the wideband receiving system for Shanghai VGOS telescopes by generally the Y-factor method, which is to place the hot load in front of the feed then to let the system point to the cold sky. Shanghai VGOS telescopes, with a diameter of 13.2 m, works in the 3–18 GHz range with dual-linear polarization and is based on the ring focus reflector principle. Removing signal interference points, in the whole broadband range, the noise temperature of the receiver system is lower than 40 k.

Published

2020

5. Research on actuator distribution and panels for a radio telescope

Author

Jinqing Wang, Li Fu, Jin-Ling Li, Qin-Hui Liu, Wei Hu, Wei Gou, Yongchen Jiang, Linfeng Yu, Zhi-Qiang Shen, Rong-Bin Zhao, YongBin Jiang, and Zheng-Xiong Sun

Subjects

Radio telescope, Physics, Distribution (number theory), Space and Planetary Science, business.industry, Astronomy and Astrophysics, Astrophysics, Aerospace engineering, business, Actuator

Abstract

Trying to achieve the best surface accuracy control with the fewest actuators, this article mainly studies the distribution of actuators and the method of panel design. The influence of the number of faulty actuators on the accuracy of the surface shape is demonstrated. In addition, the method incorporating a triangular panel, node index and the fitting solution method of a single panel is also given. This method provides a reference for the design and realization of an active surface or a deformable sub-reflector for high performance large aperture radio telescopes.

Published

2021

6. An Overview of Shanghai VGOS Wideband VLBI System

Author

Jin Qing Wang, Zheng Xiong Sun, and Guangli Wang

Subjects

Radio telescope, Ethernet, Data acquisition, 010308 nuclear & particles physics, Computer science, 0103 physical sciences, Broadband, Very-long-baseline interferometry, Wideband, 010303 astronomy & astrophysics, 01 natural sciences, Remote sensing

Abstract

The demand for higher precision measurements in Very Long Baseline Interferometry (VLBI) continues to grow, which drives the technical development of next generation international VLBI stations called the VLBI Global Observing System (VGOS). The Shanghai VGOS station is located in the courtyard of existing 65m radio telescope, which is 13.2 m diameter, dual-reflector systems with a ring-focus sub-reflector. It is instrumented with a broadband feed systems, which works in the 3-18Ghz range with dual-linear polarization to provide VGOS capability. The Chinese VLBI Data Acquisition System (CDAS) was designed to digitize wideband signals from receivers of radio telescopes, pack the digital samples into VDIF frames, and transmit them through 16G Ethernet interface. In this paper we present the estimated performance, focusing on the achievable system equivalent flux density (SEFD). Analysis based on measured feed data shows that SEFD of 2000 Jy can beachieved for the system.

Published

2019

7. Research on the panel adjustment method of an active main reflector for a large radio telescope

Author

Linfeng Yu, Guangli Wang, Zheng-Xiong Sun, Wei Gou, and Jinqing Wang

Subjects

Radio telescope, Physics, Optics, Space and Planetary Science, business.industry, Microwave holography, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy and Astrophysics, Reflector (antenna), Astrophysics, business, Radio astronomy

Abstract

The surface accuracy of a large parabolic antenna is an important indicator to evaluate the quality of the antenna. It not only directly affects the antenna’s aperture efficiency, thereby determining the shortest wavelength that the antenna can work, but also affects the main lobe width and side lobe structure of the antenna pattern. Microwave holography is an important method for parabolic antenna profile detection. In this article we adopt a new algorithm to adjust the panels for the large radio telescope with an active main reflector through the TM65 m antenna’s aperture phase profile. The panels of the TM65 m radio telescope is in a radial pattern with 14 rings. Each corner of the panel is fixed on the screw of the actuator to move up and down, and the adjacent corners of the four panels share an actuator. We use the method of plane fitting to calculate the adjustment value of every panel’s corner. But one actuator, which simultaneously controls the common corner of the adjacent panels, will have different adjustment values according to the different plane fitting equation based on adjacent panels. In this paper, the adjustment value of the adjacent panels’crosspoints are constrained to be equal to the constraint condition to calculate each actuator’s adjustment value of the TM65 m radio telescope. Through multiple adjustments and application of the new algorithms, the accuracy of the TM65 m antenna reflector profile has been improved from the original 0.28 mm to the current 0.19 mm.

Published

2021

8. Active sub-reflector research for a large radio telescope

Author

Weimin Zheng, Jinqing Wang, Linfeng Yu, Rong-Bin Zhao, Zheng-Xiong Sun, Yongchen Jiang, Qin-Hui Liu, Zhi-Qiang Shen, and Li Fu

Subjects

Physics, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Holography, Phase (waves), Physics::Optics, Astronomy and Astrophysics, Reflector (antenna), Astrophysics, Physics::Geophysics, law.invention, Radio telescope, Optics, Space and Planetary Science, law, business

Abstract

This paper proposes an active sub-reflector suitable for large radio telescopes, which can compensate both of the deformation of the main reflector and sub-reflector position offsets. The mathematical formula of the main reflector deformation compensated by the sub-reflector is deduced based on Cassegrain and Gregory antenna structures. The position of the sub-reflector is adjustable to compensate for defocusing errors on high and low elevations, which are mainly caused by the deformation of the sub-reflector supporting legs. In this paper, the method of obtaining the optimum position of the sub-reflector from the aperture phase by the interferometric method is introduced. The actual measurement is verified on the Tianma 65m radio telescope, which provides a new way to diagnose the position error of the sub-reflector.

Published

2020

9. ANALYSIS AND COMPENSATION OF SUBREFLECTOR DISPLACEMENT FOR THE PARABOLIC ANTENNA OF A RADIO TELESCOPE

Author

Zheng Xiong Sun, Guo Chun Wan, Mei Song Tong, Lan Chen, and Jin Qing Wang

Subjects

Physics, Parabolic antenna, Radio telescope, Optics, Offset (computer science), business.industry, Deflection (engineering), Condensed Matter Physics, business, Electronic, Optical and Magnetic Materials

Abstract

A subreflector system in the parabolic antenna of a 65 m radio telescope has been installed for compensating the gravitational deformation of the supporting frame in the antenna. This paper investigates the influence caused by the displacement of subreflector on the performance of the antenna and the corresponding compensation method. The investigation focuses on Ku-band frequencies and a new fitting formulation which is different from that of low-frequency bands is proposed to reduce the fitting error in the Y direction. In addition, the pointing deviation caused by the offset of the subreflector is analyzed and the model of pointing deflection caused by the displacement of subreflector is established, which can be used to improve the pointing accuracy. The model can determine the position and attitude of the subreflector with elevation and an extensive test shows that it can effectively improve the efficiency of the antenna at each elevation.

Published

2015

10. Subreflector model depending on elevation for the Tianma 65m Radio Telescope

Author

Jinqing Wang, Zheng-Xiong Sun, and Lan Chen

Subjects

Physics, business.industry, 020208 electrical & electronic engineering, Astrophysics::Instrumentation and Methods for Astrophysics, Elevation, 020206 networking & telecommunications, Astronomy and Astrophysics, Reflector (antenna), 02 engineering and technology, Ku band, Antenna efficiency, Radio telescope, Optics, Space and Planetary Science, Position (vector), Observatory, 0202 electrical engineering, electronic engineering, information engineering, Antenna (radio), business

Abstract

A subreflector adjustment system for the Tianma 65 m radio telescope, administered by Shanghai Astronomical Observatory, has been installed to compensate for gravitational deformation of the main reflector and the structure supporting the subreflector. The position and attitude of the subreflector are variable in order to improve the efficiency at different elevations. The subreflector model has the goal of improving the antenna's performance. A new fitting formulation which is different from the traditional formulation is proposed to reduce the fitting error in the Y direction. The only difference in the subreflector models of the 65m radio telescope is the bias of a constant term in the Z direction. We have investigated the effect of movements of the subreflector on the pointing of the antenna. The results of these performance measurements made by moving the antenna in elevation show that the subreflector model can effectively improve the efficiency of the 65 m radio telescope at each elevation. An antenna efficiency of about 60% at the Ku band is reached in the whole angular range of elevation.

Published

2016

11. The position and attitude of sub-reflector modeling for TM65m radio telescope

Author

Zheng-xiong, Sun, primary, Jm-qmg, Wang, additional, and Lan, Chen, additional

Published

2015

12. Analysis and Compensation of Subreflector Displacement for the Parabolic Antenna of a Radio Telescope.

Author

Lan Chen, Zheng Xiong Sun, Jin Qing Wang, Guo Chun Wan, and Mei Song Tong

Subjects

SATELLITE dish antennas, RADIO telescopes, GRAVITATIONAL waves

Abstract

A subreflector system in the parabolic antenna of a 65m radio telescope has been installed for compensating the gravitational deformation of the supporting frame in the antenna. This paper investigates the influence caused by the displacement of subreflector on the performance of the antenna and the corresponding compensation method. The investigation focuses on Ku-band frequencies and a new fitting formulation which is different from that of low-frequency bands is proposed to reduce the fitting error in the Y direction. In addition, the pointing deviation caused by the offset of the subreflector is analyzed and the model of pointing deflection caused by the displacement of subreflector is established, which can be used to improve the pointing accuracy. The model can determine the position and attitude of the subreflector with elevation and an extensive test shows that it can effectively improve the efficiency of the antenna at each elevation. [ABSTRACT FROM AUTHOR]

Published

2015

13. Active sub-reflector research for a large radio telescope.

Author

Jin-Qing Wang, Rong-Bin Zhao, Yong-Chen Jiang, Zheng-Xiong Sun, Lin-Feng Yu, Li Fu, Qin-Hui Liu, Wei-Min Zheng, and Zhi-Qiang Shen

Published

2020

14. Subreflector model depending on elevation for the Tianma 65m Radio Telescope.

Author

Zheng-Xiong Sun, Jin-Qing Wang, and Lan Chen

Published

2016