Phase locking among Saturn radio emissions revealed by Cassini observations

Wu，Siyuan1,2; Ye，Shengyi1; Fischer，Georg3; Wang，Jian1; Kurth，William S.4; Yao，Zhonghua5; Guo，Ruilong5,6,7; Menietti，Johns D.4; Long，Minyi8; Xu，Yan5

2023-12-01

10.1051/0004-6361/202347279

Astronomy and Astrophysics   影响因子和分区

0004-6361

1432-0746

Context. Rotational modulation has been observed in different magnetospheric phenomena at Saturn, including radio emissions, which reflect the fundamental plasma processes in key regions. Though previous studies have shown Saturn's kilometric radiation, 5 kHz narrowband emissions, and auroral hiss to be rotationally modulated, the modulation features of its 20 kHz narrowband emissions are still unknown. Aims. This work complements previous modulation analysis of Saturn radio emissions by undertaking the analysis of 20 kHz narrowband emissions and comprehensively comparing the phases among the regularly observed radio components. Methods. We carried out a least-squares analysis using the time series of narrowband emissions, which we derived from an event list based on a previous statistical study on Saturn narrowband emissions. Results. We reveal a "phase-lock"relation between the 5 and 20 kHz narrowband emissions and Saturn's kilometric radiation, which suggests these strongly clock-like modulated emissions are connected to the rotating field-aligned current system, with local time preferences for the generation of the radio emissions. This local time preference cannot be well explained by existing theoretical frameworks. Although the phase-lock relation is relatively stable, it may be disrupted during solar wind compression. Therefore, the phase lock between these radio emissions may become a fundamental phenomenon that could help in establishing a global picture of the large-scale dynamics of Saturn's magnetosphere.

Planetary systems Planets and satellites: gaseous planets Radiation mechanisms: non-thermal

EI ; SCI

英语

第一 ; 通讯

20235115241257

Locks (fasteners) ; Magnetosphere ; Satellites ; Time series analysis

Atmospheric Properties:443.1 ; Satellites:655.2 ; Extraterrestrial Physics and Stellar Phenomena:657.2 ; Magnetism: Basic Concepts and Phenomena:701.2 ; Mathematical Statistics:922.2

SPACE SCIENCE

2-s2.0-85179814737

Scopus

1.Department of Earth and Space Sciences,Southern University of Science and Technology,Guangdong,1088 Xueyuan Avenue, Shenzhen,518055,China
2.Lesia,Observatoire de Paris,Université Psl,Cnrs,Sorbonne Université,Université de Paris,Meudon,5 place Jules Janssen,92195,France
3.Space Research Institute,Austrian Academy of Sciences,Graz,Austria
4.Department of Physics and Astronomy,University of Iowa,Iowa City,United States
5.Key Laboratory of Earth and Planetary Physics,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing,19 Beitucheng western road,100029,China
6.Laboratory for Planetary and Atmospheric Physics,Star Institute,Université de Liège,Liège,Belgium
7.Laboratory of Optical Astronomy and Solar-Terrestrial Environment,Institute of Space Sciences,School of Space Science and Physics,Shandong University,Shandong,Weihai,264209,China
8.Department of Space Physics,School of Electronic Information,Wuhan University,Wuhan,430072,China

Wu，Siyuan,Ye，Shengyi,Fischer，Georg,et al. Phase locking among Saturn radio emissions revealed by Cassini observations[J]. Astronomy and Astrophysics,2023,680.

Wu，Siyuan.,Ye，Shengyi.,Fischer，Georg.,Wang，Jian.,Kurth，William S..,...&Xu，Yan.(2023).Phase locking among Saturn radio emissions revealed by Cassini observations.Astronomy and Astrophysics,680.

Wu，Siyuan,et al."Phase locking among Saturn radio emissions revealed by Cassini observations".Astronomy and Astrophysics 680(2023).