- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
The Advanced Space-based Solar Observatory (ASO-S) is China's first comprehensive mission dedicated to solar research. It was successfully launched on October 9, 2022. This book is a reprint of a collection of articles originally published in the journal of Solar Physics, comprising 30 papers that present the in-flight performance and early scientific results of ASO-S, with data collected up to March 15, 2024. Together, these papers provide an overview of the mission's progress during the first one and a half years after the launch. Earlier studies on the mission and its instruments, conducted prior to launch, can be found primarily in special issues of RAA (2019, Vol. 19, No. 11) and Acta Astronomica Sinica (2020, Vol. 61, No. 4). Additional related research has also appeared in journals such as ApJ, A&A, and MNRAS.
ASO-S aims to investigate the relationships between the solar magnetic field, solar flares, and coronal mass ejections (CMEs). It is equipped with three onboard instruments: the Full-disc vector MagnetoGraph (FMG), the Hard X-ray Imager (HXI), and the Lyman-alpha Solar Telescope (LST), which are designed to observe the solar magnetic field, solar flare hard X-ray emissions, and the formation and propagation of CMEs, respectively. The book is organized into four parts. Part One includes five papers detailing the mission's final technical configuration prior to launch, the first-light results, the in-flight performance and calibration of FMG, HXI, and LST, and the mission's data center. The remaining three parts are each devoted to scientific research based on observations from FMG, HXI, and LST, respectively.
Reprinted from Solar Physics, Topical Collection: ASO-S Mission: Inflight Performance and First Results.
Contents
Preface, Part 1: Overview and Inflight Performance.- The Advanced Space-Based Solar Observatory (ASO-S).- Calibration and performance of the Full-Disk Vector MagnetoGraph (FMG) on board the Advanced Space-Based Solar Observatory (ASO-S).- The tests and calibrations of the Hard X-ray Imager aboard ASO-S.- Inflight performance and calibrations of the Lyman-Alpha Solar Telescope on board the Advanced Space-Based Solar Observatory.- Science Operation and Data Analysis Center of the Advanced Space-Based Solar Observatory (ASO-S) Mission.- Part 2: FMG Related Research.- The magnetic-field calibration of the Full-Disk Magnetograph onboard the Advanced Space Based Solar Observatory (ASO-S/FMG).- Comparison of line-of-sight magnetic field observed by ASO-S/FMG, SDO/HMI and HSOS/SMAT.- A Study on magnetic-sensitivity wavelength position of the working line used by the Full-Disk Magnetograph onboard the Advanced Space Based Solar Observatory (ASO-S/FMG).- Correction for the weakening magnetic field within the sunspot umbra observed by ASO-S/FMG.- Direct measurement of the longitudinal magnetic field in the solar photosphere with Zeeman effect.- Observation of a large-scale filament eruption initiated by two small-scale erupting filaments pushing out from below.- Investigation of decaying β-configuration sunspot in active region NOAA 13229.- The solar origin of an intense geomagnetic storm on 1 December 2023: successive slipping and eruption of multiple magnetic flux ropes.- Comparison of relative magnetic helicity flux calculation results based on the line-of-sight magnetograms of ASO-S/FMG and SDO/HMI.- Part 3: HXI Related Research.- A new solar hard X-ray image reconstruction algorithm for ASO-S/HXI based on deep learning.- Spectral cross-calibrations of ASO-S/HXI with other X-ray missions.- The solar aspect system of the Hard X-ray Imager onboard ASO-S.- Multiwavelength observations of quasiperiodic pulsations in the impulsive phase of an eruptive flare with the Hard X-Ray Imager on board ASO-S and other instruments.- A statistical investigation of the Neupert effect in solar flares observed with ASO-S/HXI.- Spatial and spectral evolution of microwave and X-ray sources during the solar limb flare on February 5, 2023.- High-resolution observation of blowout jets regulated by sunspot rotation.- Kink-and-Disconnection Failed Eruption in 3D.- Triangulation of hard X-ray sources in an X-Class solar flare with ASO-S/HXI and Solar Orbiter/STIX.- Part 4: LST Related Research.- Automatic solar flare detection using the Solar Disk Imager onboard the ASO-S mission.- A statistical study of solar white-light flares observed by the White-Light Solar Telescope of the Lyman-Alpha Solar Telescope on the Advanced Space-Based Solar Observatory (ASO-S/LST/WST) at 360 nm.- Spectral and imaging observations of a C2.3white-light flare from the Advanced Space-Based Solar Observatory (ASO-S) and the Chinese Hα Solar Explorer (CHASE).- Asymmetric hard X-ray radiation of two ribbons in a thermal-dominated C-class flare.- Rising of two crossing prominences and the resulting oscillations.- Association between a failed prominence eruption and the drainage of mass from another prominence.- Parameter effects on the total intensity of H I Lyα line for a modeled coronal mass ejection and its driven shock.
