Qian Xuesen

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Qian Xuesen
钱学森
Qian in 1950
Born(1911-12-11)11 December 1911
Died31 October 2009(2009-10-31) (aged 97)
NationalityChinese
Alma mater
Known for
Spouse
(m. 1947)
ChildrenQian Yonggang
Qian Yungjen
Awards
Scientific career
Fields
Institutions
Theses
Doctoral advisorTheodore von Kármán
Doctoral students
Chinese name
Traditional Chinese錢學森
Simplified Chinese钱学森
Signature

Qian Xuesen (钱学森; 11 December 1911 – 31 October 2009; also spelled as Hsue-shen Tsien) was a Chinese aerospace engineer and cyberneticist who made significant contributions to the field of aerodynamics and established engineering cybernetics. He achieved recognition as one of America's leading experts in rockets and high-speed flight theory.[1]

Qian received his undergraduate education in mechanical engineering at National Chiao Tung University in Shanghai in 1934. He travelled to the United States in 1935 and attained a master's degree in aeronautical engineering at the Massachusetts Institute of Technology in 1936. Afterward, he joined Theodore von Kármán's group at the California Institute of Technology in 1936, received a doctorate in aeronautics and mathematics there in 1939, and became an associate professor at Caltech in 1943. While at Caltech, he cofounded NASA's Jet Propulsion Laboratory.[2][3] He was recruited by the United States Department of Defense and the Department of War to serve in various positions, including as an expert consultant with a rank of colonel in 1945. At the same time, he became an associate professor at MIT in 1946, a full professor at MIT in 1947, and a full professor at Caltech in 1949.[4]

During the Second Red Scare in the 1950s, the United States federal government accused him of communist sympathies. In 1950, despite protests by his colleagues and without any evidence of the allegations, he was stripped of his security clearance.[5][6] He was given a deferred deportation order by the Immigration and Naturalization Service, and for the following five years, he and his family were subject to partial house arrest and government surveillance in an effort to gradually make his technical knowledge obsolete.[7] After spending five years under house arrest,[8] he was released in 1955 in exchange for the repatriation of American pilots who had been captured during the Korean War. He left the United States in September 1955 on the American President Lines passenger liner SS President Cleveland, arriving in mainland China via Hong Kong.[9]

Upon his return, he helped lead development of the Dongfeng ballistic missile and the Chinese space program. He also played a significant part in the construction and development of China's defense industry, higher education and research system, rocket force, and a key technology university.[10][11][12][13][14] For his contributions, he became known as the "Father of Chinese Rocketry", nicknamed the "King of Rocketry".[15][16] He is recognized as one of the founding fathers of Two Bombs, One Satellite.[17]

In 1957, Qian was elected an academician of the Chinese Academy of Sciences. He served as a Vice Chairman of the National Committee of the Chinese People's Political Consultative Conference from 1987 to 1998.

He was the cousin of engineer Hsue-Chu Tsien, who was involved in the aerospace industries of both China and the United States. His nephew, Roger Y. Tsien, was the 2008 winner of the Nobel Prize in Chemistry.

Early life and education[edit]

Qian was born in Shanghai International Settlement, with ancestral roots in Lin'an, Hangzhou, in 1911. His parents were Qian Junfu and Zhang Lanjuan.[18] He graduated from the High School Affiliated to Beijing Normal University, and attended National Chiao Tung University (now Shanghai Jiaotong University). There, he received a bachelor's degree in mechanical engineering with an emphasis on railroad administration in 1934.[19] He interned at Nanchang Air Force Base.

After graduating from college, Qian was admitted to Boxer Indemnity Scholarship to study in the United States. He left mainland China in August 1935 and went to the Massachusetts Institute of Technology (MIT) for a master's program in mechanical engineering.[19] He received a Master of Science in aeronautical engineering from MIT on 18 December 1936.[20][21]

While at MIT, he was called Hsue-Shen Tsien. He was influenced by the methods of American engineering education, especially its focus on experimentation. This was in contrast to the contemporary approach practiced by many Chinese scientists, which emphasized theoretical elements rather than "hands-on" experience. Qian's experiments included plotting of pitot pressures using mercury-filled manometers.

Theodore von Kármán, Qian's doctoral advisor, described their first meeting:

One day in 1936, he came to me for advice on further graduate studies. This was our first meeting. I looked up to observe a slight, short young man, with a serious look, who answered my questions with unusual precision. I was immediately impressed with the keenness and quickness of his mind, and I suggested that he enroll at Caltech for advanced study ... Tsien agreed. He worked with me on many mathematical problems. I found him to be quite imaginative, with a mathematical aptitude that he combined successfully with a great ability to visualize accurately the physical picture of natural phenomena. Even as a young student, he helped clear up some of my own ideas on several difficult topics. These are gifts which I had not often encountered and Tsien and I became close colleagues.[22]: 309 

Kármán made his home a social scene for the aerodynamicists of Pasadena, and Qian was drawn in: "Tsien enjoyed visiting my home, and my sister took to him because of his interesting ideas and straightforward manner."

Shortly after arriving at the California Institute of Technology in 1936, Qian became fascinated with the rocketry ideas of Frank Malina, other students of von Kármán, and their associates, including Jack Parsons. Along with his fellow students, he was involved in rocket-related experiments at the Guggenheim Aeronautical Laboratory at Caltech. Around the university, the dangerous and explosive nature of their work earned them the nickname "Suicide Squad".[23][24] Qian received a Doctor of Philosophy magna cum laude in aeronautics and mathematics from Caltech on 9 June 1939.[20][25]

Career in the United States[edit]

In 1943, Qian and two other members of their rocketry group drafted the first document to use the name Jet Propulsion Laboratory.[26] In response to the German V-1 cruise missile and V-2 rocket, he and other important US scientists developed a variety of highly effective missiles that were vital in the closing stages of World War II.[27]

In 1945, as an Army colonel with a security clearance, Qian was sent to Germany to investigate laboratories and question German scientists, including Wernher von Braun,[28][29] and "to recruit German scientists for the American missile program".[30][31]

Von Kármán wrote of Qian, "At the age of 36, he was an undisputed genius whose work was providing an enormous impetus to advances in high-speed aerodynamics and jet propulsion."[32] During this time, he worked on designing an intercontinental space plane, which would later inspire the X-20 Dyna-Soar, a precursor to the American Space Shuttle.

Qian married Jiang Ying, a famed opera singer and the daughter of Jiang Baili and his wife, Japanese nurse Satô Yato. The elder Jiang was a military strategist and adviser to Kuomintang leader Chiang Kai-shek. The Qians were married on 14 September 1947[33] in Shanghai, and had two children; their son Qian Yonggang (钱永刚, also known as Yucon Qian[34]) was born in Boston on 13 October 1948,[35] while their daughter Qian Yongzhen (钱永真) was born in early 1950[36] when the family was residing in Pasadena, California.

Shortly after his wedding, Qian returned to America to take up a teaching position at MIT. Jiang Ying would join him in December 1947.[37] In 1949, with the recommendation of von Kármán, Qian became a Robert H. Goddard Professor of Jet Propulsion at Caltech.[23] He was also appointed the first director of the Daniel and Florence Guggenheim Jet Propulsion Center at Caltech.[27]

In 1947, Qian was granted a permanent resident permit,[9] and in 1949, he applied for naturalization, although he could not obtain citizenship.[6] Except for the memories of a few individuals,[6] there is no other official proof indicating that Qian had tried to apply for naturalization. Years later, his wife Jiang Ying said in an interview with Phoenix Television that Qian did not apply for naturalization at all.[38]

Detention[edit]

By the early 1940s, US Army Intelligence was already aware of allegations that Qian was a communist, but his security clearance was not suspended until prior to the Korean War.[39] Suddenly, on June 6, 1950, the Army revoked Qian‘s security clearance and he was questioned by the FBI. Two weeks later, Qian announced that he would resign from Caltech and return to China, which was ruled by the Chinese Communist Party.[8][40]

In August, Qian had a conversation on the subject with the then Under Secretary of the Navy Dan A. Kimball, whom Qian knew personally. After Qian told him of the allegations, Kimball responded, "Hell, I don't think you're a communist", at which point Qian indicated that he still intended to leave the country, saying, "I'm Chinese. I don't want to build weapons to kill my countrymen. It's that simple." Kimball then said, "I won't let you out of the country."[41]

After the firm in charge of arranging Qian's move back to mainland China tipped off U.S. Customs that some of the papers encountered among his possessions were marked "Secret" or "Confidential", U.S. officials seized them from a Pasadena warehouse. The U.S. Immigration and Naturalization Service issued a warrant for Qian's arrest on August 25. Qian claimed that the security-stamped documents were mostly written by himself and had outdated classifications, adding that, "There were some drawings and logarithm tables, etc., which someone might have mistaken for codes."[42] Included in the material was a scrapbook with news clippings about the trials of those charged with atomic espionage, such as Klaus Fuchs.[43] Subsequent examination of the documents showed they contained no classified material.[9]

While at Caltech, Qian had secretly attended meetings with J. Robert Oppenheimer's brother Frank Oppenheimer, Jack Parsons, and Frank Malina that were organized by the Russian-born Jewish chemist Sidney Weinbaum and called Professional Unit 122 of the Pasadena Communist Party.[44] Weinbaum's trial commenced on 30 August and both Frank Oppenheimer and Parsons testified against him.[45] Weinbaum was convicted of perjury and sentenced to four years.[46] Qian was taken into custody on 6 September 1950, for questioning[9] and for two weeks was detained at Terminal Island, a low-security United States federal prison near the ports of Los Angeles and Long Beach.

When Qian had returned from China with his new bride in 1947, he had answered "no" on an immigration questionnaire that asked if he ever had been a member of an organization advocating overthrow of the U.S. Government by force. This, together with an American Communist Party document from 1938 with Qian's name on it, was used to argue that Qian was a national security threat. Prosecutors also cited a cross-examination session where Qian said, "I owe allegiance to the people of mainland China" and would "certainly not" let the United States government make his decision for him as to whom he would owe allegiance to in the event of a conflict between the U.S. and communist China.[47]

On 26 April 1951, Qian was declared subject to deportation and forbidden from leaving Los Angeles County without permission, effectively placing him under house arrest.[48]

During this time, Qian wrote Engineering Cybernetics, which was published by McGraw Hill in 1954. The book deals with the practice of stabilizing servomechanisms. In its 18 chapters, it considers non-interacting controls of many-variable systems, control design by perturbation theory, and von Neumann's theory of error control. Ezra Krendel reviewed[49] the book, stating that it is "difficult to overstate the value of Qian's book to those interested in the overall theory of complex control systems." Evidently, Qian's approach is primarily practical, as Krendel notes that for servomechanisms, the "usual linear design criterion of stability is inadequate and other criteria arising from the physics of the problem must be used."

Return to China[edit]

Qian and his family aboard SS President Cleveland before its departure from Los Angeles, 1955

Qian became the subject of five years of secret diplomacy and negotiation between the U.S. and China. During this time, he lived under constant surveillance with the permission to teach without any classified research duties.[8] Qian received support from his colleagues at Caltech during his incarceration, including president Lee DuBridge, who flew to Washington to argue Qian's case. Caltech appointed attorney Grant Cooper to defend Qian.

The travel ban on Qian was lifted on August 4, 1955,[9] and he resigned from Caltech shortly thereafter. With President Dwight Eisenhower personally agreeing, Qian departed from Los Angeles for Hong Kong aboard the SS President Cleveland in September 1955 amidst rumors that his release was a swap for 11 U.S. airmen held captive by communist China since the end of the Korean War.[50][51][52] Qian arrived at Hong Kong on 8 October 1955, and entered mainland China via the Kowloon–Canton Railway later that day.

Under Secretary Kimball, who had tried for several years to keep Qian in the U.S., commented on his treatment: "It was the stupidest thing this country ever did. He was no more a communist than I was, and we forced him to go."[6]

Upon his return, Qian began a remarkably successful career in rocket science, boosted by the reputation he garnered for his past achievements as well as Chinese state support for his nuclear research. He led, and eventually became the father of, the Chinese missile program, which constructed the Silkworm missiles,[53] the Dongfeng ballistic missiles and the Long March space rockets.

Career in China[edit]

In October 1956, he became the director of the Fifth Academy of the Ministry of National Defense, tasked with ballistic missile and nuclear weapons development.

Qian's reputation as a prominent scientist who was caught up in the red scare in the United States gave him considerable influence during the era of Mao Zedong and afterward. Qian eventually rose through Party ranks to become a Central Committee of the Chinese Communist Party member. He became associated with the China's Space Program - From Conception to Manned Spaceflight initiative.

Tianyu Fang wrote about Xuesen's relationship with Chinese officials as a struggle for survival:[54]

1955 wasn't exactly the best year to settle down permanently in Beijing. American paranoia had forced Tsien into a situation where he now had to repeatedly profess loyalty to the Chinese Communist Party to survive. Tsien, a foreign-trained intellectual from an affluent household who was married to the daughter of a Kuomintang official, had to constantly reaffirm his unswerving loyalty as Red Guards conducted a witch hunt for counterrevolutionaries during the Cultural Revolution.

In 1958 Xuesen wrote an article with "scientific" support of Mao Zedong's Great Leap Forward.[53] In 1989, after the Tiananmen massacre, he "denounced the demonstrators as 'evil elements' and, in line with prevailing orthodoxy, branded the dissident astrophysicist Fang Lizhi 'the scum of the nation'."[55] Xuesen views were described as "political opportunism" that sometimes failed him, when he "praised" Lin Biao, close associate of Mao Zedong, who after Mao's death was killed during an attempt to flee to the USSR. Xuesen also criticized Deng Xiaoping for his "counterrevolutionary revisionism".[54]

Qian was elected as an academician of the Chinese Academy of Sciences in 1957, a lifelong honor granted to Chinese scientists who have made significant advancements in their field. He organized scientific seminars and dedicated some of his time to training successors for his positions.[56]

He was heavily involved in the establishment of the University of Science and Technology of China (USTC) in 1958 and served as the Chairman of the Department of Modern Mechanics of the university for a number of years.

In 1969, Qian was one of a group of scientists who spoke with Australian journalist Francis James, describing China's first seven nuclear tests and details of a gaseous diffusion plant near Lanzhou.[30][31]

Outside of rocketry, Qian had a presence in numerous areas of study. He was among the creators of systematics, and made contributions to science and technology systems, somatic science, engineering science, military science, social science, the natural sciences, geography, philosophy, literature and art, and education. His advancements in the concepts, theories, and methods of the system science field include studying the open complex giant system.[57][58] Additionally, he helped establish the Chinese school of complexity science.

From the 1980s onward, Qian had advocated the scientific investigation of traditional Chinese medicine, qigong, and the pseudoscientific concept of "special human body functions". He particularly encouraged scientists to accumulate observational data on qigong so that "future scientific theories could be established".[59][60]

Later life[edit]

Qian Xuesen Library [zh], Xi'an Jiaotong University, Shanghai

Qian retired in 1991 and lived quietly in Beijing, refusing to speak to Westerners.[61]

In 1979, Qian was awarded Caltech's Distinguished Alumni Award for his achievements. Qian eventually received his award from Caltech, and with the help of his friend Frank Marble, brought it to his home in a widely covered ceremony. Furthermore, in the early 1990s, the filing cabinets containing Qian's research work were offered to him by Caltech.

Qian was invited to visit the US by the American Institute of Aeronautics and Astronautics after the normalization of relations between the two countries, but he refused the invitation, having wanted a formal apology for his detention. In a reminiscence published in 2002, Marble stated that he believed Qian had "lost faith in the American government" but that he had "always had very warm feelings for the American people."[62] Despite this, Xuesen approved the decision of both his children, US citizens by birth, to return to the US to study.[55]

The Chinese government launched its manned space program in 1992, reportedly with some help from Russia due to their extended history in space. Qian's research was used as the basis for the Long March rocket, which successfully launched the Shenzhou 5 mission in October 2003. The elderly Qian was able to watch China's first manned space mission on television from his hospital bed.

Premier Wen Jiabao visited Qian in 2005.[63]: 119  Qian posed what became known as Qian Xuesen's Question: "So many students have been educated in these years. None of them is comparable with those masters educated during the period of the RoC in terms of academic achievements. Why cannot our universities educate outstanding talent?"[63]: 119  Qian Xuesen's Question was widely reported and debated, becoming an important element in public debates on education and innovation in China.[63]: 119 

In 2008, he was named Aviation Week & Space Technology Person of the Year. The recognition was not intended as an honor, but is given to the person judged to have the greatest impact on aviation in the past year.[32][64] That year, China Central Television named Qian as one of the eleven most inspiring people in China.[65]

On 31 October 2009, Qian died at the age of 97 in Beijing from lung illness.[66][67]

A Chinese film production, Hsue-shen Tsien, directed by Zhang Jianya and starring Chen Kun as Qian, was simultaneously released in Asia and North America on 11 December 2011,[68] and on 2 March 2012, it was released in China.

Legacy in China[edit]

'Qian Xuesen.' Poster from the series 'Excellent sons and daughters of China', by Li Huiquan, 1990.[69]

After his retirement in 1991, Qian received numerous honorary titles in China, was highly praised in press and by party officials, that was even called "Qian Xuesen fever". Ning Wang describes it as Chinese propaganda campaign "to commend and eulogize" Qian's life. In 1989, public movement "learn from Qian Xuesen" was officially launched by the Commission of Science for National Defence, the Chinese Academy of Sciences, and the Chinese Association of Science and Technology. Qian received honorary titles "State Scientist of Outstanding Contribution", got a "Medal for the First Class Heroic Model", and was called by state leaders "the People's Scientist", "National Hero" and "the Pillar of the State". For his 90th birthday in 2001, celebrations and praising were "comparable with that for Deng Xiaoping during 1992–97".[70]

Wang writes that heroization of Qian was made for several purposes: his "deep engagement in China's national defence programmes", "allegiance to the Party and his well-articulated commitment to state ideology", "rapid emergence of Chinese anti-Americanism", and to create a role model of a "party scientist". Wang writes that in the 1990s, students "claimed to appreciate Qian's scientific accomplishments and the significance of science and technology, taking him as a model and swearing to study hard to be the 'next Qian Xuesen'."[70]

Qian himself tried to avoid publicity, and did not allow writing his biography until he got the title of "State Scientist". During this heroization campaigns, multiple official and unofficial biographies were published. 'Official' biographies were written by Qian's secretaries by party requests. Wang Shouyun wrote A Biography of Qian Xuesen in 1991, Tu Yuanji published another book in 2002. 'Unofficial' biographies are based on these two books, and were published by Wang Wenhua, Qi Shuying, and Hu Shihong, among others.[70] All the biographies lack references to source material; Wang describes all the Chinese biographies of Qian as following:[70]

From these multifarious biographies we learn that Qian was a prodigy, a scientific genius from the outset. He was gifted with a golden mind in mathematics and displayed multiple talents at young age – such as memorizing hundred of poems when he was three – and was good at music and painting when growing up. In MIT and Caltech, Qian was brighter than his classmates and surprised professors with the intelligence of Chinese youth. He was particularly good at playing darts in childhood, which presaged his talent in rocketry. ... These narratives create a near-miraculous Qian, with a strong impression that he was not only a missile expert, but an all-rounder; not only a scientific giant, but a built-in communist revolutionary.

Selected works[edit]

Scientific papers[edit]

  • 1938: (with Theodore von Karman) "Boundary Layer in Compressible Fluids", Journal of Aeronautical Sciences, April
  • 1938: "Supersonic Flow Over an Inclined Body of Revolution", Journal of Aeronautical Sciences, October
  • 1938: (with Frank Malina) "Flight analysis of a Sounding Rocket with Special Reference to Propulsion by Successive Impulses", Journal of Aeronautical Sciences, December
  • 1939: Two-dimensional subsonic flow of compressible fluids, Journal of Aeronautical Sciences 6(10): 399–407.[71]
  • 1939: (with Theodore von Kármán) The buckling of thin cylindrical shells under axial compression, Journal of Aeronautical Sciences 7(2):43 to 50.
  • 1943: "Symmetrical Joukowsky Airfoils in shear flow", Quarterly of Applied Mathematics, 1: 130–48.
  • 1943: On the Design of the Contraction Cone for a Wind Tunnel, Journal of Aeronautical Sciences, 10(2): 68–70.
  • 1945: (with Theodore von Kármán), "Lifting- line Theory for a Wing in Nonuniform Flow," Quarterly of Applied Mathematics, 3: 1–11.
  • 1946: "Similarity laws of hypersonic flows", MIT Journal of Mathematics and Physics 25: 247–251, MR0018074.
  • 1946: "Superaerodynamics, Mechanics of Rarefied Gases", Journal of the Aeronautical Sciences, 13 (12)
  • 1949: "Rockets and Other Thermal Jets Using Nuclear Energy", in The Science and Engineering of Nuclear Power, Addison-Wesley, Vol. 2.
  • 1950: "Instruction and Research at the Daniel and Florence Guggenheim Jet Propulsion Center", Journal of the American Rocket Society, June 1950
  • 1951: "Optimum Thrust Programming for a Sounding Rocket" (with Robert C. Evans), Journal of the American Rocket Society 21(5)
  • 1952: "The Transfer Functions of Rocket Nozzles", Journal of the American Rocket Society 22(3)
  • 1952: "A Similarity Law for Stressing Rapidly Heated Thin-Walled Cylinders" (with C.M.Cheng), Journal of the American Rocket Society 22(3)
  • 1952: "Automatic Navigation of a Long Range Rocket Vehicle", (with T.D.Adamson and E.L. Knuth) Journal of the American Rocket Society 22(4)
  • 1952: "A Method for Comparing the Performance of Power Plants for Vertical Flight", Journal of the American Rocket Society 22(4)
  • 1952: "Serbo-Stabilization of Combustion in Rocket Motors", Journal of the American Rocket Society 22(5)
  • 1953: "Physical Mechanics, a New Field in Engineering Science", Journal of the American Rocket Society 23(1)
  • 1953: "The Properties of Pure Liquids", Journal of the American Rocket Society 23(1)
  • 1953: "Take-Off from Satellite Orbit", Journal of the American Rocket Society 23(4)
  • 1956: "The Poincaré-Lighthill-Kuo Method", Advances in Applied Mechanics 4: 281–349, MR0079929.
  • 1958: "The equations of gas dynamics", in Fundamentals of Gas Dynamics v. 3, Princeton University Press, MR0097212.

Monographs[edit]

  • 1954: Engineering Cybernetics. New York, NY: McGraw Hill. 4 April 2020. OCLC 299574775.
    • 1957: Technische Kybernetik. Translated by Dr. H. Kaltenecker (into German). Stuttgart: Berliner Union.
  • 2007: Hydrodynamics (manuscript facsimile). Jiaotong University Press. 2007. ISBN 978-7-313-04199-9.

Biographies[edit]

See also[edit]

References[edit]

Citations[edit]

  1. ^ https://www.jpl.nasa.gov/universe/archive/un0911.pdf
  2. ^ https://www.jpl.nasa.gov/universe/archive/un0911.pdf
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  4. ^ "Biographies of Aerospace Officials and Policymakers". NASA. Archived from the original on 11 June 2022. Retrieved 2 February 2015.
  5. ^ https://www.jpl.nasa.gov/universe/archive/un0911.pdf
  6. ^ a b c d Perrett, Bradley; Asker, James R. (7 January 2008). "Person of the Year: Qian Xuesen". Aviation Week and Space Technology. 168 (1): 57–61. Archived from the original on 8 December 2015. Retrieved 2 February 2015.(subscription required)
  7. ^ https://www.jpl.nasa.gov/universe/archive/un0911.pdf
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  17. ^ "23位两弹一星元勋已有17人离世 媒体解析其功绩". China.com (in Chinese). 30 May 2016. Archived from the original on 31 August 2018. Retrieved 31 August 2018.
  18. ^ Lv, Chengdong (2022). "Family and Education". Return to China One Day. Springer Nature. pp. 1–31. doi:10.1007/978-981-19-5755-0_1. ISBN 978-981-19-5755-0. Archived from the original on 12 July 2023. Retrieved 12 July 2023.
  19. ^ a b "钱学森在美国的20年(1935年-1955年)(连载一)----中国科学院". www.cas.cn. Archived from the original on 2020-04-05. Retrieved 2023-03-05.
  20. ^ a b "钱学森的硕、博士学位证书 Qian Xuesen's master's and doctoral degree certificates". Qian Xuesen Library and Museum, Shanghai Jiao Tong University. Archived from the original on 2021-04-22. Retrieved 2023-03-24.
  21. ^ Tsien, Hsue-Shen (1936), Study of the turbulent boundary layer (Thesis), Massachusetts Institute of Technology, hdl:1721.1/111566, archived from the original on 2023-03-05, retrieved 2023-03-05
  22. ^ Theodore von Kármán with Lee Edson (1967) The Wind and Beyond, chapter 38: Dr. Tsien of Red China, pp. 308–15.
  23. ^ a b "GALCIT History". CalTech. Archived from the original on March 5, 2021. Retrieved January 31, 2023.
  24. ^ Chang, Iris (1995). Thread of the Silkworm. New York: BasicBooks. pp. 109–117. ISBN 978-0-465-08716-7.
  25. ^ Tsien, Hsue-shen (1939). Problems in motion of compressible fluids and reaction propulsion (Ph.D. thesis). California Institute of Technology. Archived from the original on 2023-03-08. Retrieved 2018-06-12.
  26. ^ "Qian Xuesen (Tsien Hsue-Shen)". GALCIT - Graduate Aerospace Laboratories.
  27. ^ a b Brown, Kerry (November 1, 2009). "Qian Xuesen obituary". The Guardian.
  28. ^ WINES, MICHAEL (2009-11-04). "Qian Xuesen, Father of China's Space Program, Dies at 98". New York Times. Archived from the original on 2017-10-28. Retrieved 2019-11-24.
  29. ^ "Trained in the U.S., Scientist Became China's 'Rocket King'". Wall Street Journal. 2009-11-04. Archived from the original on 2019-09-11. Retrieved 2019-11-24.
  30. ^ a b "The first Western look at the secret H-bomb centre in China". The Toronto Star. August 9, 1969. p. 10.
  31. ^ a b "Qian Xuesen, Physicist, China". Atomic Heritage Foundation. Archived from the original on January 28, 2023. Retrieved January 27, 2023.
  32. ^ a b Perrett, Bradley (6 January 2008). "Qian Xuesen Laid Foundation For Space Rise in China". Aviation Week and Space Technology. 168 (1). Archived from the original on 2011-05-21. Retrieved 2 February 2015.
  33. ^ Chang (1995), p. 139.
  34. ^ "California Institute of Technology scientist, Dr. Hsue-shen Tsien with his family onboard SS President Cleveland, 1955". Los Angeles Times Photographic Archive. Archived from the original on 2019-03-23. Retrieved 2019-03-24.
  35. ^ Chang (1995), p. 141.
  36. ^ Chang (1995), p. 153.
  37. ^ Chang (1995), pp. 139–140.
  38. ^ 凤凰卫视 (18 February 2012). 2012-02-18我的中国心 天籁美音——蒋英 [My Chinese Heart heavenly tone: Jiang Ying] (in Chinese). 凤凰网/凤凰视频. Archived from the original on 13 May 2012. Retrieved 2 February 2015.
  39. ^ Chang (1995), p. 158.
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Works cited

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