Age, Biography and Wiki
Wang Ganchang was born on 28 May, 1907 in Changshu, Jiangsu, Qing dynasty. Discover Wang Ganchang's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is He in this year and how He spends money? Also learn how He earned most of networth at the age of 91 years old?
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Age |
91 years old |
Zodiac Sign |
Gemini |
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28 May, 1907 |
Birthday |
28 May |
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Changshu, Jiangsu, Qing dynasty |
Date of death |
(1998-12-10) Beijing, China |
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Beijing, China |
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We recommend you to check the complete list of Famous People born on 28 May.
He is a member of famous with the age 91 years old group.
Wang Ganchang Height, Weight & Measurements
At 91 years old, Wang Ganchang height not available right now. We will update Wang Ganchang's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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Dating & Relationship status
He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
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Wang Ganchang Net Worth
His net worth has been growing significantly in 2022-2023. So, how much is Wang Ganchang worth at the age of 91 years old? Wang Ganchang’s income source is mostly from being a successful . He is from . We have estimated
Wang Ganchang's net worth
, money, salary, income, and assets.
Net Worth in 2023 |
$1 Million - $5 Million |
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Under Review |
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Pending |
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Under Review |
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Timeline
In 2000, the Chinese Physical Society established five prizes in recognition of five pioneers of modern physics in China. The Wang Ganchang Prize is awarded to physicists in particle physics and inertial confinement fusion.
In September 1999, Wang and Qian Sanqiang jointly received the special prize Two Bombs, One Satellite Meritorious Award for their contributions to the Chinese nuclear program. It was granted to them posthumously by the State Council, the Central Committee of the Communist Party, and the Central Military Commission.
On March 3, 1986, Wang Ganchang, Wang Daheng, Yang Jiachi and Chen Fangyun first proposed in a letter (《关于跟踪世界战略性高科技发展的建议》) to the Chinese government that China should research weapons utilizing lasers and microwaves, as well as electromagnetic pulse weapons. Wang's plan was adopted in November of that year under the code name Project 863 (“863计划”). As an ongoing program, it has produced several notable developments including the Loongson computer processor family (originally named Godson), the Tianhe supercomputers, and aspects of the Shenzhou spacecraft.
Wang was the first recipient of the State Natural Science Award in 1982. He was also the first recipient of the Special Award of the State Science and Technology Progress Award (国家科技进步奖特等奖) in 1985.
By the end of 1978, his inertial confinement fusion research group established by the Atomic Energy began the construction of a high-current accelerator. As an advocate of nuclear energy, and with four other nuclear experts in October 1978, Wang proposed the development of nuclear power in China. In 1980, he promoted a plan to build 20 nuclear power plants at various locations including Qinshan, Zhejiang Province, Daya Bay, and Guangzhou.
From spring of 1969 onwards, Wang held many high-level positions within Chinese academic and political organizations. He was vice-director of the Ninth Research Institute (二机部第九研究院), predecessor of the China Academy of Engineering Physics, director of the China Institute of Atomic Energy, deputy director of the Nuclear industry Science and Technology Commission (核工业部科技委), and second vice-chairman of the China Association for Science and Technology. He was also vice-chairman of the Chinese Physical Society and the first chairman of the Chinese Nuclear Society. Within the political sphere he was a member of the 3rd through 16th National People's Congress Standing Committees of the Chinese government.
In spring 1969, Wang was one of several scientists who spoke with an Australian journalist about China's nuclear weapons programme.
That year, as part of his duties as vice-director of the Ninth Research Institute (二机部第九研究院), Wang received the task of conducting China's first underground nuclear test. Due to severe high altitude hypoxia brought on by the test location, he had to carry an oxygen tank while at work. The first underground test was successfully conducted on September 22, 1969. Wang also led the second and third Chinese underground nuclear tests.
Less than three years later, on June 17, 1967 the first hydrogen bomb test (code-named "Test No. 6") was conducted successfully. This shocked the world since China had not only managed to break the nuclear monopoly of the two superpowers, but had developed this technology even before some major Western powers such as France.
On October 16, 1964 the first atomic bomb test (code-named "596") was conducted successfully, making China a nuclear-weapons state.
In 1964, the Shanghai Optical Machinery Institute (上海光学精密机械研究所) of the Chinese Academy of Sciences developed a high-power 10 MW output laser. In late December of the same year, Wang proposed to the State Council to use high-power laser beam targeting in order to achieve inertial confinement fusion, an idea simultaneously (but independently) developed by his Soviet counterpart Nikolai Gennadievich Basov. For this contribution, Wang is known as the founder of Chinese laser fusion technology.
In 1963 he moved to a site within the Qinghai Plateau more than 3000 meters above sea level to continue polymerization detonation experiments. He then relocated to the Taklamakan desert in Xinjiang province to prepare for China's first nuclear test.
Wang also led a group which discovered the anti-sigma minus hyperon particle at the Joint Institute for Nuclear Research, Dubna, Russia in 1959.
Wang remained affiliated with the Joint Institute for Nuclear Research even after returning to China, serving as its deputy director from 1958 until 1960.
After his return to China in 1958, Wang agreed to participate in the Chinese nuclear program to develop an atomic bomb, which meant giving up his research on elementary particles for the next 17 years. Within one year he had conducted more than one thousand detonation experiments at the foot of the Great Wall, in the Yanshan Mountains, Huailai county, Hebei province.
In order to develop the field of high energy physics in China, in 1956 the Chinese government began to send experts to the Joint Institute for Nuclear Research at Dubna in the Soviet Union to do field work and carry out preliminary design of particle accelerators. The agreement on the establishment of JINR was signed on March 26, 1956 in Moscow, with Wang Ganchang as one of the founders.
On April 4, 1956, Wang went to the USSR to help plan the long-term development of the peaceful utilization of atomic energy. Later, many Chinese students went to the Soviet Union to study the technology of accelerator and detector construction. Using this technology, the experimental group led by Professor Wang Ganchang in Dubna analysed more than 40,000 photographs which recorded tens of thousands of nuclear interactions taken in the propane bubble chamber produced by a 10 GeV synchrophasotron used to bombard a target forming high energy mesons. On March 9, 1959 they were the first to discover anti-sigma minus hyperon particles (反西格马负超子).
His study of cosmic-rays lead him to publish his findings on neutral-meson decay in 1955. By 1957 he had collected more than 700 recordings of new types of particles.
Professor Wang was the first to propose the establishment of a cosmic ray laboratory in China. From 1953 to 1956, he directed the Luoxue Mountain Cosmic Rays Research Center (落雪山宇宙线实验站) located 3185 meters above sea level in the mountainous region of Yunnan province.
After May 1950, Wang became researcher and vice-director of the Institute of Modern Physics. He was also vice-director of the Soviet Joint Institute for Nuclear Research.
From April 1950 to 1956 Wang was a researcher at the Institute of Modern Physics at the Chinese Academy of Sciences and served as the Institute's deputy director from 1952. There, with the invitation of fellow researcher Qian Sanqiang, he began studies of cosmic-rays with a circular 12-feet cloud chamber. In 1952, he designed a magnetic cloud chamber.
In 1941 Wang first proposed the use of beta-capture to detect the neutrino. James Allen employed his suggestion and found evidence for the existence of the neutrino in 1942. Frederick Reines and Clyde Cowan detected the neutrino via the inverse beta-decay reaction in 1956, for which, forty years later, they were awarded the 1995 Nobel Prize in Physics.
In 1941, he first proposed an experiment to prove the existence of the neutrino by capturing K-electrons in nuclear reactions. Unfortunately, due to the war he was unable to conduct this experiment. Instead, fifteen years later in 1956, Frederick Reines and Clyde Cowan detected the neutrino through a different method involving the inverse beta-decay reaction. Forty years later, they were awarded the 1995 Nobel Prize in Physics.
After the Marco Polo Bridge Incident in July 1937, the Japanese invasion of China forced Wang and other professors to retreat with all the faculty of Zhejiang University to the western mountainous rural areas of China to escape capture. Despite the difficult conditions, he nonetheless tried in 1939 to find evidence of tracks of nuclear fission caused by neutron bombardment of cadmium acid on photographic film.
Wang suggested the use of a cloud chamber to study these particles. However, he could not perform this experiment during his time in Germany, since he lacked the support of his supervisor Lise Meitner. Instead, it was conducted one year later by the English physicist James Chadwick, who discovered a new type of particle, the neutron. Chadwick was subsequently awarded the 1935 Nobel Prize in Physics.
In 1934, Wang Ganchang received his Ph.D. with a thesis on β decay spectrum (German: Über die β-Spektren von ThB+C+C; Chinese:《ThB+C+C的β能谱》) under the supervision of Meitner. He returned to China in April of that year.
He first worked at Shandong University as a physics professor from 1934 to 1936. He then became a professor at Zhejiang University and served as head of the Department of Physics there from October 1936 to 1950.
In 1930, Wang first proposed the use of a cloud chamber to study a new type of high-energy ray induced by the bombardment of beryllium with α particles. This experiment was conducted a year later by the English physicist James Chadwick, leading to the discovery a new type of particle, the neutron, for which Chadwick won the 1935 Nobel Prize in Physics.
In 1930 he went to study at the University of Berlin in Germany. As soon as he arrived in Berlin, he became aware of the Bothe report (博特报告) relating to the emission of a new type of high-energy neutral radiation induced by the bombardment of beryllium with α particles from a radioactive polonium source, which was non-ionizing but even more penetrating than the strongest gamma rays derived from radium. These were (wrongly) presumed to be gamma rays.
He graduated from the Physics Department of Tsinghua in June 1929, and served as an assistant professor from 1929 to 1930. In his thesis "On the daily change of radon gas" (《清华园周围氡气的强度及每天的变化》), he was the first Chinese scientist to publish on atmospheric research and radioactive experiments.
Wang Ganchang (Chinese: 王淦昌; pinyin: Wáng Gànchāng; Wade–Giles: Wang Kan-ch'ang; May 28, 1907 – December 10, 1998) was a Chinese nuclear physicist. He was one of the founding fathers of Chinese nuclear physics, cosmic rays and particle physics. Wang was also a leader in the fields of detonation physics experiments, anti-electromagnetic pulse technology, nuclear explosion detection, anti-nuclear radiation technology, and laser stimulated nuclear explosion technologies.
Wang Ganchang was born in Zhitang (支塘镇枫塘湾), Changshu, Jiangsu Province on May 28, 1907. In 1924, he graduated from Pudong High School (浦东中学) in Shanghai. Subsequently, he studied English for six months while driving and repairing cars to sustain himself. He passed the entrance examinations for Tsinghua University in August 1928.