Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment

Jingye Yan; Ji Wu; Leonid I. Gurvits; Lin Wu; Li Deng; Fei Zhao; Li Zhou; Ailan Lan; Wenjie Fan; Min Yi; Yang Yang; Zhen Yang; Mingchuan Wei; Jinsheng Guo; Shi Qiu; Fan Wu; Chaoran Hu; Xuelei Chen; Hanna Rothkaehl; Marek Morawski

doi:10.1007/s10686-022-09887-0

Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment

Jingye Yan^*
, Ji Wu
, Leonid I. Gurvits
, Lin Wu
, Li Deng
, Fei Zhao
, Li Zhou
, Ailan Lan
, Wenjie Fan
, Min Yi
, Yang Yang
, Zhen Yang
, Mingchuan Wei
, Jinsheng Guo
, Shi Qiu
, Fan Wu
, Chaoran Hu
, Xuelei Chen
, Hanna Rothkaehl
, Marek Morawski

^*Corresponding author for this work

School of Astronautics

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

This paper introduces the first results of observations with the Ultra-Long-Wavelength (ULW) —- Low Frequency Interferometer and Spectrometer (LFIS) on board the selenocentric satellite Longjiang-2. We present a brief description of the satellite and focus on the LFIS payload. The in-orbit commissioning confirmed a reliable operational status of the instrumentation. We also present results of a transition observation, which offers unique measurements on several novel aspects. We estimate the RFI suppression required for such a radio astronomy instrumentation at the Moon-distances from Earth as order of − 80 dB. We analyse a method of separating Earth- and satellite-originated radio frequency interference (RFI). It is found that the RFI level at frequencies lower than a few MHz is smaller than the receiver noise floor.

Original language	English
Pages (from-to)	333-353
Number of pages	21
Journal	Experimental Astronomy
Volume	56
Issue number	1
DOIs	https://doi.org/10.1007/s10686-022-09887-0
State	Published - Aug 2023

Keywords

DSL
FLIS
Interferometric radiometer
Longjiang-2
Lunar orbit
Radio astronomy
Satellite array
Ultra-low frequencies

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10.1007/s10686-022-09887-0

Cite this

Yan, J., Wu, J., Gurvits, L. I., Wu, L., Deng, L., Zhao, F., Zhou, L., Lan, A., Fan, W., Yi, M., Yang, Y., Yang, Z., Wei, M., Guo, J., Qiu, S., Wu, F., Hu, C., Chen, X., Rothkaehl, H., & Morawski, M. (2023). Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment. Experimental Astronomy, 56(1), 333-353. https://doi.org/10.1007/s10686-022-09887-0

@article{23af800a0814478ea7994d61c9316210,

title = "Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment",

abstract = "This paper introduces the first results of observations with the Ultra-Long-Wavelength (ULW) —- Low Frequency Interferometer and Spectrometer (LFIS) on board the selenocentric satellite Longjiang-2. We present a brief description of the satellite and focus on the LFIS payload. The in-orbit commissioning confirmed a reliable operational status of the instrumentation. We also present results of a transition observation, which offers unique measurements on several novel aspects. We estimate the RFI suppression required for such a radio astronomy instrumentation at the Moon-distances from Earth as order of − 80 dB. We analyse a method of separating Earth- and satellite-originated radio frequency interference (RFI). It is found that the RFI level at frequencies lower than a few MHz is smaller than the receiver noise floor.",

keywords = "DSL, FLIS, Interferometric radiometer, Longjiang-2, Lunar orbit, Radio astronomy, Satellite array, Ultra-low frequencies",

author = "Jingye Yan and Ji Wu and Gurvits, \{Leonid I.\} and Lin Wu and Li Deng and Fei Zhao and Li Zhou and Ailan Lan and Wenjie Fan and Min Yi and Yang Yang and Zhen Yang and Mingchuan Wei and Jinsheng Guo and Shi Qiu and Fan Wu and Chaoran Hu and Xuelei Chen and Hanna Rothkaehl and Marek Morawski",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Nature B.V.",

year = "2023",

month = aug,

doi = "10.1007/s10686-022-09887-0",

language = "英语",

volume = "56",

pages = "333--353",

journal = "Experimental Astronomy",

issn = "0922-6435",

publisher = "Springer Netherlands",

number = "1",

}

Yan, J, Wu, J, Gurvits, LI, Wu, L, Deng, L, Zhao, F, Zhou, L, Lan, A, Fan, W, Yi, M, Yang, Y, Yang, Z, Wei, M , Guo, J , Qiu, S , Wu, F, Hu, C, Chen, X, Rothkaehl, H & Morawski, M 2023, 'Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment', Experimental Astronomy, vol. 56, no. 1, pp. 333-353. https://doi.org/10.1007/s10686-022-09887-0

TY - JOUR

T1 - Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit

T2 - First results of the Longjiang-2 experiment

AU - Yan, Jingye

AU - Wu, Ji

AU - Gurvits, Leonid I.

AU - Wu, Lin

AU - Deng, Li

AU - Zhao, Fei

AU - Zhou, Li

AU - Lan, Ailan

AU - Fan, Wenjie

AU - Yi, Min

AU - Yang, Yang

AU - Yang, Zhen

AU - Wei, Mingchuan

AU - Guo, Jinsheng

AU - Qiu, Shi

AU - Wu, Fan

AU - Hu, Chaoran

AU - Chen, Xuelei

AU - Rothkaehl, Hanna

AU - Morawski, Marek

PY - 2023/8

Y1 - 2023/8

N2 - This paper introduces the first results of observations with the Ultra-Long-Wavelength (ULW) —- Low Frequency Interferometer and Spectrometer (LFIS) on board the selenocentric satellite Longjiang-2. We present a brief description of the satellite and focus on the LFIS payload. The in-orbit commissioning confirmed a reliable operational status of the instrumentation. We also present results of a transition observation, which offers unique measurements on several novel aspects. We estimate the RFI suppression required for such a radio astronomy instrumentation at the Moon-distances from Earth as order of − 80 dB. We analyse a method of separating Earth- and satellite-originated radio frequency interference (RFI). It is found that the RFI level at frequencies lower than a few MHz is smaller than the receiver noise floor.

AB - This paper introduces the first results of observations with the Ultra-Long-Wavelength (ULW) —- Low Frequency Interferometer and Spectrometer (LFIS) on board the selenocentric satellite Longjiang-2. We present a brief description of the satellite and focus on the LFIS payload. The in-orbit commissioning confirmed a reliable operational status of the instrumentation. We also present results of a transition observation, which offers unique measurements on several novel aspects. We estimate the RFI suppression required for such a radio astronomy instrumentation at the Moon-distances from Earth as order of − 80 dB. We analyse a method of separating Earth- and satellite-originated radio frequency interference (RFI). It is found that the RFI level at frequencies lower than a few MHz is smaller than the receiver noise floor.

KW - DSL

KW - FLIS

KW - Interferometric radiometer

KW - Longjiang-2

KW - Lunar orbit

KW - Radio astronomy

KW - Satellite array

KW - Ultra-low frequencies

UR - https://www.scopus.com/pages/publications/85146929583

U2 - 10.1007/s10686-022-09887-0

DO - 10.1007/s10686-022-09887-0

M3 - 文章

AN - SCOPUS:85146929583

SN - 0922-6435

VL - 56

SP - 333

EP - 353

JO - Experimental Astronomy

JF - Experimental Astronomy

IS - 1

ER -

Ultra-low-frequency radio astronomy observations from a Seleno-centric orbit: First results of the Longjiang-2 experiment

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Keywords

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