The Advanced Space-based Solar Observatory(ASO-S)is a mission proposed for the 25 th solar maximum by the Chinese solar community.The scientific objectives are to study the relationships between the solar magnetic fie...The Advanced Space-based Solar Observatory(ASO-S)is a mission proposed for the 25 th solar maximum by the Chinese solar community.The scientific objectives are to study the relationships between the solar magnetic field,solar flares and coronal mass ejections(CMEs).Three payloads are deployed:the Full-disk vector Magneto Graph(FMG),the Lyman-αSolar Telescope(LST)and the Hard X-ray Imager(HXI).ASO-S will perform the first simultaneous observations of the photospheric vector magnetic field,non-thermal imaging of solar flares,and the initiation and early propagation of CMEs on a single platform.ASO-S is scheduled to be launched into a 720 km Sun-synchronous orbit in 2022.This paper presents an overview of the mission till the end of Phase-B and the beginning of Phase-C.展开更多
Scrophularia ningpoensis has long been used in the Chinese Materia Medica for inflammation.Like other herbal medicines,S.ningpoensis collected from different localities may considerably differ in their therapeutic eff...Scrophularia ningpoensis has long been used in the Chinese Materia Medica for inflammation.Like other herbal medicines,S.ningpoensis collected from different localities may considerably differ in their therapeutic efficacy,and the one grown in Zhejiang Province is recognized as geo-authentic.However,it is difficult to confirm the geo-graphical authenticity by similar morphological characteristics.In the present study,inter-simple sequence repeat(ISSR) markers were conducted to detect S.ningpoensis from different origins.A 1 259-bp fragment amplified by primer UBC874 was found only in geo-authentic ones.By cloning and sequencing that specific band,sequence characterized amplified region(SCAR) markers were designed to distinguish geo-authentic S.ningpoensis from others.This is a rapid and easy method that can be used to identify the geographical authenticity of S.ningpoensis.展开更多
We give a survey on 4-dimensional manifolds with positive isotropic curvature. We will introduce the work of B. L. Chen, S. H. Tang and X. P. Zhu on a complete classification theorem on compact four-manifolds with pos...We give a survey on 4-dimensional manifolds with positive isotropic curvature. We will introduce the work of B. L. Chen, S. H. Tang and X. P. Zhu on a complete classification theorem on compact four-manifolds with positive isotropic curvature (PIC). Then we review an application of the classification theorem, which is from Chen and Zhu's work. Finally, we discuss our recent result on the path-connectedness of the moduli spaces of Riemannian metrics with positive isotropic curvature.展开更多
基金supported by the Strategic Priority Research Program on Space Science, Chinese Academy of Sciences (Grant Nos. XDA15320100, XDA15320102, XDA15320103, XDA15320104, XDA15320300 and XDA15052200)supported by the National Natural Science Foundation of China (Grant Nos. 11427803, U1731241, U1631242 and 11820101002)
文摘The Advanced Space-based Solar Observatory(ASO-S)is a mission proposed for the 25 th solar maximum by the Chinese solar community.The scientific objectives are to study the relationships between the solar magnetic field,solar flares and coronal mass ejections(CMEs).Three payloads are deployed:the Full-disk vector Magneto Graph(FMG),the Lyman-αSolar Telescope(LST)and the Hard X-ray Imager(HXI).ASO-S will perform the first simultaneous observations of the photospheric vector magnetic field,non-thermal imaging of solar flares,and the initiation and early propagation of CMEs on a single platform.ASO-S is scheduled to be launched into a 720 km Sun-synchronous orbit in 2022.This paper presents an overview of the mission till the end of Phase-B and the beginning of Phase-C.
基金Project supported by the National Basic Research Program (973) of China(No.2007CB411600)the National Natural Science Foundation of China(No.31070205)the Key Agricultural Program of Pan’an County of Zhejiang Province,China(No.2005ZB01)
文摘Scrophularia ningpoensis has long been used in the Chinese Materia Medica for inflammation.Like other herbal medicines,S.ningpoensis collected from different localities may considerably differ in their therapeutic efficacy,and the one grown in Zhejiang Province is recognized as geo-authentic.However,it is difficult to confirm the geo-graphical authenticity by similar morphological characteristics.In the present study,inter-simple sequence repeat(ISSR) markers were conducted to detect S.ningpoensis from different origins.A 1 259-bp fragment amplified by primer UBC874 was found only in geo-authentic ones.By cloning and sequencing that specific band,sequence characterized amplified region(SCAR) markers were designed to distinguish geo-authentic S.ningpoensis from others.This is a rapid and easy method that can be used to identify the geographical authenticity of S.ningpoensis.
基金Acknowledgements The first author was partially supported by the National Natural Science Foundation of China (Grant Nos. 11025107, 11521101) and a grant (No. 141gzd02) from Sun Yat-sen University.
文摘We give a survey on 4-dimensional manifolds with positive isotropic curvature. We will introduce the work of B. L. Chen, S. H. Tang and X. P. Zhu on a complete classification theorem on compact four-manifolds with positive isotropic curvature (PIC). Then we review an application of the classification theorem, which is from Chen and Zhu's work. Finally, we discuss our recent result on the path-connectedness of the moduli spaces of Riemannian metrics with positive isotropic curvature.
