Chung-Yao Chao (Chinese: 赵忠尧; pinyin: Zhào Zhōngyáo; 27 June 1902 – 28 May 1998) was a Chinese theoretical physicist. He studied the scattering of gamma rays in lead by pair production in 1930, without knowing that positrons were involved in the anomalously high scattering cross-section. When the positron was discovered by Carl David Anderson in 1932, confirming the existence of Paul Dirac's "antimatter", it became clear that positrons could explain Chung-Yao Chao's earlier experiments, with the gamma rays being emitted from electron-positron annihilation.

Chung-Yao Chao
Born(1902-06-27)27 June 1902
Zhuji, China
Died28 May 1998(1998-05-28) (aged 95)
Beijing, China
Alma mater
Known for
Seminal contributions to the discovery of antimatter
Scientific career
FieldsPhysics
Institutions

He entered Nanjing Higher Normal School (later renamed National Southeastern University, National Central University and Nanjing University), in 1920 and earned a BS in physics in 1925. Then he earned a PhD degree in physics under supervision of Nobel Prize laureate Robert Andrews Millikan at California Institute of Technology in 1930. Later he went back to China and joined the physics faculty of Tsinghua University in Beijing.

Nobel Prize controversy

edit

The 1936 Nobel Prize for Physics went to Carl D. Anderson for the discovery of the positron. While a graduate student at Caltech in 1930, Chao was the first to experimentally identify positrons through electron–positron annihilation, but did not realize what they were. Anderson, Chao's classmate at Caltech, used the same radioactive source, 208
Tl
, as Chao. (Historically, 208
Tl
was known as "thorium C double prime" or "ThC", see decay chains.) Fifty years later, Anderson admitted that Chao had inspired his discovery: Chao's research formed the foundation from which much of Anderson's own work developed. Chao died in 1998, without sharing in a Nobel Prize acknowledgment.[1]

References

edit
  1. ^ Cao, Cong (2004). "Chinese Science and the 'Nobel Prize Complex'" (PDF). Minerva. 42 (2): 151–172. doi:10.1023/b:mine.0000030020.28625.7e. ISSN 0026-4695. S2CID 144522961.

Further reading

edit