Chien-Shiung Wu
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Chien-Shiung Wu | |
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File:Chien-shiung Wu (1912-1997) (3).jpg
Chien-Shiung Wu in 1958 at Columbia University
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Born | Liuhe, Taicang, Jiangsu, China |
May 31, 1912
Died | Script error: The function "death_date_and_age" does not exist. New York City, United States |
Fields | Physics |
Institutions | Institute of Physics, Academia Sinica University of California at Berkeley Smith College Princeton University Columbia University Zhejiang University |
Alma mater | National Central University, Nanjing, China University of California at Berkeley |
Thesis | I. The Continuous X-Rays Excited by the Beta-Particles of 32 P. II. Radioactive Xenons (1940) |
Doctoral advisor | Ernest Lawrence |
Known for | <templatestyles src="Plainlist/styles.css"/> |
Notable awards | <templatestyles src="Plainlist/styles.css"/>
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Chien-Shiung Wu (simplified Chinese: 吴健雄; traditional Chinese: 吳健雄; pinyin: Wú Jiànxióng, May 31, 1912 – February 16, 1997) was a Chinese American experimental physicist who made significant contributions in the field of nuclear physics. Wu worked on the Manhattan Project, where she helped develop the process for separating uranium metal into uranium-235 and uranium-238 isotopes by gaseous diffusion. She is best known for conducting the Wu experiment, which contradicted the hypothetical law of conservation of parity. This discovery resulted in her colleagues Tsung-Dao Lee and Chen-Ning Yang winning the 1957 Nobel Prize in physics, and also earned Wu the inaugural Wolf Prize in Physics in 1978. Her expertise in experimental physics evoked comparisons to Marie Curie. Her nicknames include "the First Lady of Physics", "the Chinese Madame Curie", and the "Queen of Nuclear Research".[1]
Contents
Early life and education
Chien-Shiung Wu was born in the town of Liuhe in Taicang, Jiangsu province, China,[2] on May 31, 1912,[3] the second of three children of Wu Zhong-Yi (吳仲裔) and Fan Fu-Hua. The family custom was that children of this generation had Chien as the first character of their forename, followed by the characters in the phrase Ying-Shiung-Hao-Jie, which means "heroes and outstanding figures". Accordingly, she had an older brother, Chien-Ying, and a younger brother, Chien-Hao.[4] Wu and her father were extremely close and he encouraged her interests passionately, creating an environment where she was surrounded by books, magazines, and newspapers.[5]
Wu received her elementary school education at Ming De School,[4] a school for girls founded by her father.[6] She left her hometown in 1923 at the age of 11 to go to the Suzhou Women's Normal School No. 2. This was a boarding school with classes for teacher training as well as for regular high school. Admission to teacher training was more competitive, as it did not charge for tuition or board, and guaranteed a job on graduation. Although her family could have afforded to pay, Wu chose the more competitive option, and was ranked ninth among around 10,000 applicants.[7]
In 1929 Wu graduated at the top of her class, and was admitted to the National Central University in Nanjing. According to the governmental regulations of the time, teacher-training college students wanting to move on to the universities needed to serve as schoolteachers for one year. In Wu's case, this was only nominally enforced. She went to teach at the zh in Shanghai, the president of which at the time was the philosopher Hu Shih, whose class she took.[8][9]
From 1930 to 1934, Wu studied at the National Central University (later renamed Nanjing University and reinstated in Taiwan), first in mathematics, but later transferring to physics.[10] She became involved in student politics. Relations between China and Japan were tense at this time, and students were urging the government to take a stronger line with Japan.[11] Wu was elected as one of the student leaders by her colleagues because they felt that since she was one of the top students at the university, her involvement would be forgiven, or at least overlooked, by the authorities. That being the case, she was careful not to neglect her studies.[12] She led protests that included a sit-in at the Presidential Palace in Nanjing, where the students were met by Chiang Kai-shek.[11]
For two years after graduation, she did graduate-level study in physics and worked as an assistant at the Zhejiang University. She became a researcher at the Institute of Physics of the Academia Sinica. Her supervisor was Professor Gu Jing-Wei, who had earned her PhD abroad at the University of Michigan, and encouraged Wu to do the same. Wu was accepted by the University of Michigan, and her uncle, Wu Zhou-Zhi, provided the necessary funds. She embarked for the United States with a female friend, Dong Ruo-Fen (董若芬), a chemist from Taicang, on the SS President Hoover in August 1936. Her parents and uncle saw her off. She would never see her parents again.[13]
Berkeley
The two women arrived in San Francisco,[5] where Wu's plans for graduate study changed after visiting the University of California, Berkeley.[10] She met physicist Luke Chia-Liu Yuan, a grandson of Yuan Shikai, the first President of the Republic of China and self-proclaimed Emperor of China.[5] Yuan showed her the Radiation Laboratory, where the director was Ernest O. Lawrence, who would soon win the Nobel Prize for Physics in 1939 for his invention of the cyclotron particle accelerator.[5]
Wu heard that at Michigan women were not even allowed to use the front entrance,[14] and decided that she would prefer to study at Berkeley. Yuan took her to see Raymond T. Birge, the head of the physics department, and he offered Wu a place in the graduate school despite the fact that the academic year had already commenced.[15] Wu then abandoned her plans to study at Michigan and enrolled at Berkeley.[16] Her Berkeley classmates included Robert R. Wilson and George Volkoff;[17] her friends included Ursula Schaefer, a history student who chose to remain in the United States rather than return to Nazi Germany,[17][18] and Margaret Lewis, an American post-doctoral student. Wu applied for a scholarship at the end of her first year, but there was prejudice against Asian students, and Wu and Yuan were instead offered a readership with a lower stipend. Yuan then applied for, and secured, a scholarship at Caltech.[19]
Wu made rapid progress in her education and her research. Although Lawrence was officially her supervisor, she also worked closely with Emilio Segrè.[19] Her thesis had two separate parts. The first was on bremsstrahlung, the electromagnetic radiation produced by the deceleration of a charged particle when deflected by another charged particle, typically an electron by an atomic nucleus. She investigated this using beta-emitting phosphorus-32, a radioactive isotope easily produced in the cyclotron that Lawrence and his brother John H. Lawrence were evaluating for use in cancer treatment and as a radioactive tracer.[20] This marked Wu's first work with beta decay, a subject on which she would become an authority.[21][22] The second part of the thesis was about the production of radioactive isotopes of xenon produced by the nuclear fission of uranium with the 37-inch and 60-inch cyclotrons at the Radiation Laboratory.[21][23] She completed her Ph.D. in June 1940, but in spite of Lawrence and Segrè's recommendations, she could not secure a position at a university, so she remained at the Radiation Laboratory as a post-doctoral fellow.[21]
World War II
Wu and Yuan were married at the home of Robert Millikan, Yuan's academic supervisor and the President of Caltech, on May 30, 1942.[24] Neither the bride's nor the groom's families were able to attend due to the outbreak of the Pacific War.[25] Wu and Yuan moved to the East Coast of the United States, where Wu became a faculty member at Smith College, a prestigious private women's college in Northampton, Massachusetts, while Yuan worked on radar for RCA. She found the job frustrating, as her duties involved teaching only, and there was no opportunity for research. She appealed to Lawrence, who wrote letters of recommendation to a number of universities. Smith responded by making Wu an associate professor, and increasing her salary.[26] She accepted a job from Princeton University in New Jersey as an instructor for Naval officers.[21]
In March 1944, Wu joined the Manhattan Project's Substitute Alloy Materials (SAM) Laboratories at Columbia University. She lived in dormitory there, returning to Princeton on the weekends.[27] The role of the SAM Laboratories, headed by Harold Urey, was to support the Manhattan Project's gaseous diffusion (K-25) program for uranium enrichment. Wu worked alongside James Rainwater in a group led by William W. Havens, Jr.,[28] whose task was to develop radiation detector instrumentation.[21]
In September 1944, Wu was contacted by the Manhattan District Engineer, Colonel Kenneth Nichols. The newly commissioned B Reactor at the Hanford Site had run into an unexpected problem, starting up and shutting down at regular intervals. John Archibald Wheeler suspected that a fission product, xenon-135, with a half-life of 9.4 hours, was the culprit, and might be a neutron poison. Segrè then remembered the work that Wu had done at Berkeley on the radioactive isotopes of xenon. The paper on the subject was still unpublished, but Wu and Nichols went to her dorm room, and collected the typewritten draft prepared for the Physical Review. Xenon-135 was indeed the culprit; it turned out to have an unexpectedly large neutron absorption cross-section.[28]
After the end of the war in August 1945, Wu accepted an offer of a position as an associate research professor at Columbia. Communication with China was restored, and Wu received a letter from her family,[29] but plans to visit China were disrupted by the Chinese Civil War,[30] and the birth in 1947 of a son, Vincent Yuan (袁緯承),[31] who would grow up to become a physicist like his parents.[32] In 1949, Yuan joined the Brookhaven National Laboratory, and the family moved to Long Island.[33] After the communists came to power in China that year, Wu's father wrote urging her not to return. Since her passport had been issued by the Kuomintang government, she found it difficult to travel abroad. This eventually led to her decision to take out US citizenship in 1954.[33][32] She would remain at Columbia for the rest of her career. She became an associate professor in 1952,[34] a full professor in 1958, and the Michael I. Pupin Professor of Physics in 1973.[35] Her students called her the Dragon Lady, after the character of that name in the comic strip Terry and the Pirates.[36]
Beta decay and the conservation of parity
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In her post-war research, Wu continued to investigate beta decay. Enrico Fermi had published his theory of Beta decay in 1934, but an experiment by Luis Walter Alvarez had produced results at variance with the theory. Wu set out to repeat the experiment and verify the result.[37] She suspected that the problem was that a thick and uneven film of copper sulphate (CuSO
4) was being used as a copper-64 beta ray source, which was causing the emitted electrons to lose energy. To get around this, she adapted an older form of spectrometer, a solenoidal spectrometer. She added detergent to the copper sulphate to produce a thin and even film. She was then able to demonstrate that the discrepancies observed were the result of experimental error; her results were consistent with Fermi's theory.[38]
At Columbia Wu knew the Chinese-born theoretical physicist Tsung-Dao Lee personally. In the mid-1950s, Lee and another Chinese theoretical physicist, Chen Ning Yang, grew to question a hypothetical law of elementary particle physics, the "law of conservation of parity". One example highlighting the problem was the puzzle of the theta and tau particles, two apparently different charged, strange mesons. They were so similar that they would ordinarily be considered to be the same particle;[39] but different decay modes resulting in two different parity states were observed, suggesting that Θ+ and τ+ were different particles, if parity is conserved:
-
Θ+ → π+ + π0 τ+ → π+ + π+ + π−
Lee and Yang's research into existing experimental results convinced them that parity was conserved for electromagnetic interactions and for the strong interaction. For this reason, scientists had expected that it would also be true for the weak interaction, but it had not been tested, and Lee and Yang's theoretical studies showed that it might not hold true for the weak interaction. Lee and Yang worked out a pencil-and-paper design of an experiment for testing conservation of parity in the laboratory. Lee then turned to Wu for her expertise in choosing and then working out the hardware manufacture, set-up, and laboratory procedures for carrying out this experiment.[40][41]
Wu chose to do this by taking a sample of radioactive cobalt-60 and cooling it to cryogenic temperatures with liquid gases. Cobalt-60 is an isotope that decays by beta particle emission, and Wu was also an expert on beta decay. The extremely low temperatures were needed to reduce the amount of thermal vibration of the cobalt atoms to practically nil. Also, Wu needed to apply a constant and uniform magnetic field across the sample of cobalt-60 in order to cause the spin axes of the atomic nuclei to line up in the same direction. For this cryogenic work, she needed the facilities of the National Bureau of Standards and its expertise in working with liquid gases, and traveled to its headquarters in Maryland with her equipment to carry out the experiments.[42]
Lee and Yang's theoretical calculations predicted that the beta particles from the cobalt-60 atoms would be emitted asymmetrically and the hypothetical "law of conservation of parity" was invalid. Wu's experiment showed that this is indeed the case: parity is not conserved under the weak nuclear interactions. Θ+ and τ+ are indeed the same particle, which is today known as a kaon, K+.[43][44][45] This result was soon confirmed by her colleagues at Columbia University in different experiments, and as soon as all of these results were published—in two different research papers in the same issue of the same physics journal—the results were also confirmed at many other laboratories and in many different experiments.[46][47]
The discovery of parity violation was a major contribution to particle physics and the development of the Standard Model.[48] In recognition of their theoretical work, Lee and Yang were awarded the Nobel Prize for Physics in 1957.[49]
Later life
In 1963, Wu investigated and confirmed the Conserved Vector Current hypothesis of Richard Feynman and Murray Gell-Mann. Another milestone on the road to the Standard Model, it postulated a universal form of Fermi's beta decay model.[50] Her demonstration that parity was not conserved brought other assumptions that physicists had made about the weak interaction into question. If parity is not conserved in weak force interaction, what about charge conjugation? This was an effect that held true for electromagnetism, gravity and the strong interaction, so it had been assumed that it would hold for the weak interaction too. Wu conducted a series of experiments on double beta decay in a salt mine under Lake Erie that proved that charge conjugation was not conserved either.[44]
Another important experiment carried out by Wu was the confirmation of the E. M. L. Pryce and John Clive Ward's calculations on the correlation of the quantum polarizations of two photons propagating in opposite directions. This was the first experimental confirmation of quantum results relevant to a pair of entangled photons as applicable to the Einstein-Podolsky-Rosen (EPR) paradox.[51][52][53][54] Wu later conducted research into the molecular changes in the deformation of hemoglobins that cause sickle-cell disease. She also did research on magnetism, and on the Mössbauer effect during the 1960s.[55] She wrote a textbook with de , Beta Decay, which was published in 1966,[56] and became a standard reference on the subject.[57]
Wu's older brother died in 1958, her father in 1959 and her mother in 1962. At that time the United States government had severe restrictions on its citizens' ability to travel abroad, so she was not permitted to visit China to attend their funerals.[55] She saw her uncle Wu Zhou-Zhi and younger brother Wu Chien-Hao again on a trip to Hong Kong in 1965. After the 1972 Nixon visit to China, relations between the two countries improved, and she was able to visit China again in 1973. By this time her uncle and brother had perished in the Cultural Revolution, and the tombs of her parents had been destroyed. She was greeted by Chou En-Lai, who personally apologized for the destruction of the tombs. After this, she returned to China a number of times.[58]
In later life, Wu became more outspoken. She protested the imprisonment in Taiwan of relatives of physicist Kerson Huang in 1959, and of the journalist Lei Chen in 1960.[59] In 1964, she spoke out against gender discrimination at a symposium at the Massachusetts Institute of Technology.[60] "I wonder", she asked her audience, "whether the tiny atoms and nuclei, or the mathematical symbols, or the DNA molecules have any preference for either masculine or feminine treatment."[61] When men referred to her as Professor Yuan, she immediately corrected them and told them that she was Professor Wu.[62] In 1975, Robert Serber, the new chairman of the Physics Department Columbia University, adjusted her pay to make it equal to that of her male counterparts.[56] She protested the crackdown in China that followed the Tiananmen Square massacre of 1989.[63]
Wu retired in 1981,[60] and became a professor emerita.[64] She died on February 16, 1997 in New York City at the age of 84 after suffering a stroke. An ambulance rushed her to St. Luke's–Roosevelt Hospital Center but she was pronounced dead on arrival. She was survived by her husband and son.[57] In accordance with her wishes, her ashes were buried in the courtyard of the Ming De School that her father had founded, and that she had attended as a girl.[63]
Honors, awards and distinctions
- Elected a fellow of the American Physical Society (1948)[65]
- Elected a member of the U.S. National Academy of Sciences (1958)[66]
- First woman with an honorary doctorate from Princeton University (1958)[65]
- Achievement Award, American Association of University Women (1959)[66]
- Research Corporation Award (1959)[66]
- John Price Wetherill Medal, The Franklin Institute (1962)[65]
- American Association of University Women Woman of the Year Award (1962)
- Comstock Prize in Physics, National Academy of Sciences (1964)[66]
- Chi-Tsin Achievement Award, Chi-Tsin Culture Foundation (1965)[66]
- Honorary Fellow Royal Society of Edinburgh (1969)[65]
- Scientist of the Year Award, Industrial Research Magazine (1974)[65]
- Tom W. Bonner Prize, American Physical Society (1975)[65]
- First female President of the American Physical Society (1975)[67]
- National Medal of Science (1975)[65]
- First person selected to receive the Wolf Prize in Physics (1978)[65]
- Ellis Island Medal of Honor (1986)[65]
- First living scientist to have an asteroid (2752 Wu Chien-Shiung) named after her (1990)[66]
- Pupin Medal (1991)[66]
- Elected one of the first foreign academicians of the Chinese Academy of Sciences (1994)[68]
Bibliography
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Notes
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Hammond 2007, p. 1.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 4.0 4.1 Chiang 2014, pp. 3–5.
- ↑ 5.0 5.1 5.2 5.3 McGrayne 1998, p. 254–260.
- ↑ Wang 1970–80, p. 364.
- ↑ Chiang 2014, p. 11.
- ↑ Chiang 2014, pp. 15–19.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 10.0 10.1 Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 11.0 11.1 Chiang 2014, pp. 30–31.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Chiang 2014, pp. 31–34.
- ↑ Chiang 2014, p. 172.
- ↑ Chiang 2014, p. 39.
- ↑ Hammond 2007, p. 20.
- ↑ 17.0 17.1 Chiang 2014, p. 43.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 19.0 19.1 Chiang 2014, pp. 44–45.
- ↑ Heilbron & Seidel 1989, pp. 399–414.
- ↑ 21.0 21.1 21.2 21.3 21.4 Wang 1970–80, p. 365.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Cooperman 2004, p. 39.
- ↑ Chiang 2014, p. 66.
- ↑ Chiang 2014, pp. 71–74.
- ↑ Chiang 2014, p. 77.
- ↑ 28.0 28.1 Chiang 2014, pp. 95–96.
- ↑ Hammond 2007, p. 40.
- ↑ Chiang 2014, p. 246.
- ↑ Hammond 2007, p. 55.
- ↑ 32.0 32.1 Wang 1970–80, p. 366.
- ↑ 33.0 33.1 Chiang 2014, pp. 80–81.
- ↑ Chiang 2014, p. 108.
- ↑ Hammond 2007, pp. 187–188.
- ↑ Chiang 2014, p. 114.
- ↑ Chiang 2014, p. 107.
- ↑ Hammond 2007, pp. 46–48.
- ↑ Hammond 2007, pp. 64–67.
- ↑ Chiang 2014, pp. 123–125.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Chiang 2014, pp. 126–128.
- ↑ Hammond 2007, pp. 76–82.
- ↑ 44.0 44.1 Chiang 2014, pp. 136–139.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Chiang 2014, p. 142.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Chiang 2014, pp. 160–163.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 55.0 55.1 Chiang 2014, p. 166.
- ↑ 56.0 56.1 Chiang 2014, p. 111.
- ↑ 57.0 57.1 Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Chiang 2014, pp. 204–206.
- ↑ Chiang 2014, pp. 198–199.
- ↑ 60.0 60.1 Wang 1970–80, p. 367.
- ↑ Chiang 2014, p. 171.
- ↑ Chiang 2014, p. 183.
- ↑ 63.0 63.1 Wang 1970–80, p. 368.
- ↑ Chiang 2014, p. 251.
- ↑ 65.0 65.1 65.2 65.3 65.4 65.5 65.6 65.7 65.8 Chiang 2014, pp. 228–231.
- ↑ 66.0 66.1 66.2 66.3 66.4 66.5 66.6 Hammond 2007, pp. 100–102.
- ↑ Chiang 2014, pp. 183–184.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
References
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Further reading
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