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Scientists mark 60th anniversary of nuclear program
A museum to commemorate the "Two Bombs and One Satellite", referring to China's first atomic bomb, intercontinental ballistic missile and satellite, has been renovated and reopened to public on Oct 16, 2024. [Photo/CCTV News]
Scientists and their families gathered Wednesday at an old rocket research site in Beijing's Huairou district to commemorate the 60th anniversary of China's first atomic bomb test and reflect on the historic "Two Bombs and One Satellite" program.
The milestone marked China's rise as the fifth nation to possess nuclear weapons, following the United States, the Soviet Union, the United Kingdom and France.
Hou Jianguo, president of the Chinese Academy of Sciences, said the development of the Two Bombs and One Satellite program — encompassing China's first atomic bomb, hydrogen bomb and satellite — was a monumental effort that required national unity and resilience.
"The success was a great feat achieved through the concerted efforts of the entire country," Hou said. "Many outstanding scientists answered the call of the Communist Party and the State, working in remote, harsh conditions to forge the spirit of the program."
Hou Xun, a CAS academician and researcher at the Xi'an Institute of Optics and Precision Mechanics in Shaanxi province, recalled the early challenges workers faced in setting up the program.
The academician was involved in the development of Two Bombs and One Satellite program.
"We had almost no equipment when the institute was first established," he said. "In Xi'an, there was no gas, so we had to build our own combustible gas supply system from scratch."
The Yanqi Lake campus of the University of the Chinese Academy of Sciences, which houses China's first rocket research and testing base, has preserved key facilities related to the project. This year, the university renovated its memorial hall dedicated to the Two Bombs and One Satellite programs, displaying items such as China's first satellite and high-speed cameras.
Open to the public since 2015, the hall documents the stories of 17 key figures involved in the program and over 10,000 research and testing personnel. It has welcomed more than 430,000 visitors to date.
Recent additions to the exhibit include manuscripts, clothing worn during historic moments and models of crucial scientific instruments.
Pan Yiyao, a UCAS student and memorial hall guide, emphasized the importance of the legacy.
"The spirit of Two Bombs and One Satellite — love for the motherland, selfless dedication, self-reliance and daring exploration — continues to inspire us as we strive to build a world-class scientific and technological power in the new era," Pan said.
Source: China Daily
Editor: GAO Yuan
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Research News
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“Motion Picture” View of the Warped Milky Way Reveals the Shape of its Dark Matter Halo
Recently, Associate Professor Huang Yang from the University of the Chinese Academy of Sciences, in collaboration with several domestic and international research institutions, pioneered the "motion picture" method for measuring the precession rate of the Milky Way's disk warp. Using a sample of Cepheid variable stars of different ages, this method allows the precession direction and rate of the Milky Way's warp to be clearly observed. Based on these measurements, the research team revealed that the current dark matter halo of the Milky Way is slightly oblate. These findings, titled "A slightly oblate dark matter halo revealed by a retrograde precessing Galactic disk warp", were published online in the latest issue of international scientific journal Nature Astronomy.
In the nearby universe, nearly one-third of disk galaxies are not perfect disks but exhibit a warped shape resembling a potato chip. Astronomers refer to this phenomenon as a disk warp. The Milky Way, as a typical disk galaxy, also has this warp feature. It is generally believed that the warp originates from the rotational plane of the outer disk stars deviating from the symmetry plane of the surrounding dark matter halo. This tilted, rotating Galactic disk, much like a spinning top, inevitably undergoes precession due to the torque exerted by the surrounding dark matter halo. However, the measurement of this important dynamic parameter, both in direction and rate, has been highly debated. This is because previous measurements relied on indirect kinematic methods, where the tracers used are subject to dynamical perturbations or heating effects, greatly limiting their accuracy and precision.
Figure 1: Right panel: The spinning top precesses under the torque from gravity; Left panel: Similar to the spinning top, the Galactic disk warp "dances gracefully" under the torque of the dark matter halo (an artistic impression created by Kaiyuan Hou and Zhanxun Dong from the School of Design, Shanghai Jiao Tong University).
This study utilized 2,600 young classical Cepheid variable stars discovered by Gaia as tracers, along with precise distance and age data from both Gaia and LAMOST. Using this sample, the researchers applied the "motion picture" method to construct the three-dimensional structure of the Milky Way's disk across populations of various ages but all younger than 250 Myr. By "seeing" how the disk warp evolves with age, this study found that the warp precesses in a retrograde direction at a rate of 2 km/s/kpc (or 0.12 degrees per million years). Further detailed measurements show that the warp's precession rate gradually decreases with radius. Regardless of the origin of the warp, its precession rate and direction are jointly determined by the Galactic inner disk and the dark matter halo. After subtracting the contribution of the Galactic inner disk, the research team found that the current dark matter halo enveloping the warp exhibits a slightly oblate ellipsoidal shape (with a flattening ratio q between 0.84 and 0.96 for the equipotential surfaces). Currently, only this shape can explain the remaining precession rate of the warp. This measurement provides a crucial anchor point for studying the evolution of the Milky Way's dark matter halo.
Figure 2: The three-dimensional structure of the Galactic disk constructed from Cepheid variable stars of different slices of age, showing the variation of the warp node line with the sample age (the slope represents the warp precession).
The study was highly praised by both reviewers: “the ‘motion picture’ approach to measuring the precession rate is novel and convincing” from Referee #1; “as far as I am aware, this is the first time that the warp is constrained to precess in retrograde direction, and its precession rate is accurately measured" from Referee #2.
Associate Professor Yang Huang from the University of the Chinese Academy of Sciences is the co-first author and co-corresponding author of the paper. Researcher Jifeng Liu from the National Astronomical Observatories of the Chinese Academy of Sciences, Researcher Huawei Zhang from Peking University, and Professor Shen Juntai from Shanghai Jiao Tong University are the co-corresponding authors. Graduate student Qikang Feng from Peking University is the co-first author. This study also includes astronomers from the National Astronomical Observatories of the Chinese Academy of Sciences, Beijing Normal University, and the University of Notre Dame in the USA.
Link to this paper: https://www.nature.com/articles/s41550-024-02309-5
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