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Ni Guangjiong

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Ni Guangjiong (Chinese: 倪光炯; born December 29, 1934, in Ningbo, Zhejiang)[1] is a Chinese physicist.[2] He began studies in physics about 1950, and became a Doctor of Philosophy in 1955. He married Su Qing, a physics professor, in 1960. He published his first book in 1978.[3] He holds a Chair in Physics at Fudan University, Shanghai.[4] He is the director of Modern Physics Institute and the head of the Division for Theoretical Physics.

He is a specialist in quantum mechanics, field theory, and particle physics. His books include Modern Physics (1979), Methods of Mathematical Physics (1989), Levinson Theorem, Anomaly and Phase Transition of Vacuum (1995), Physics Changing the World (1998), and Advanced Quantum Mechanics (2000).

Accelerating universe: the role of the antimatter

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Ni is studied by several authors in astrophysics and for the theories of the antimatter,[5][6] that he includes in the cosmological model that he proposes.

The theories of Ni about antimatter are also used for invariances of scale within the framework as Quantum tunnelling[7] and it is within the framework of this cosmological model that Ni develops an important part of his study with regard to the neutrinos.[8]

International works about a superluminal speed of the (muon) neutrino

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Ni claimed to prove that the muon neutrino exceeded the speed of light in vacuum. He spent most of his career studying this.[9][10][11] This work was cited on many occasions by international teams of scientists [12][13] and in several anthologies.[14]

Distinctions

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Ni received scientific awards recognized nationally in China, inter alia :

  • Award of the worker models national (for his research) in 1979
  • Progress Award in 1988 for state education delivered by the Commission of the Chinese Academy of Sciences and Technology
  • Progress Award delivered by the Ministry for the teaching of sciences and technology for a work on the theorem of Levinson left in 1995
  • National outstanding commendation award of teaching in 2002 for a work entitled "world Change in physics"
  • National award for the colleges of teaching and universities for a book about quantum Mechanical "advanced" in 2002.

Guang-Jiong Ni has also been quoted in the field of philosophy[15] and by Siemens.[16]

Bibliography

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  • Modern Physics (1979)
  • Methods of Mathematical Physics (1989)
  • Levinson Theorem, Anomaly and Phase Transition of Vacuum (1995)
  • Physics Changing the World (1998)

Anthologies containing his writings

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  • Relativity, Gravitation, Cosmology, Contemporary Fundamental Physics, under the direction of Valeri Dvoeglazov
  • Surface Physics and Related Topics: Festschrift for Xide Xie, with Fujia Yang, Xun Wang and Kai-Ming Zhang
  • Advanced Quantum Mechanics, with Su-qing Chen

See also

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References

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  1. ^ "His profile on the New-York University website". Archived from the original on 2012-06-10. Retrieved 2011-10-17.
  2. ^ "Recording of a participation in a television program".
  3. ^ "Guang-". Yurinsha.
  4. ^ "Presentation about the author at the Rinton Press WebSite". Rinton Press.
  5. ^ Lazanu, I.; Malace, S. (1 July 2003). "Matter-antimatter asymmetry of the early Universe and some elementary considerations about the space-time properties" (PDF). Romanian Reports in Physics. 55. ISSN 1221-1451. OSTI 20386371. Archived from the original (PDF) on 2012-04-06. Retrieved 2011-11-07.
  6. ^ Vo Van On. "A vector model for gravitation field in curvature space-time" (PDF).[permanent dead link]
  7. ^ JIANG Yong-jin; ZHOU Xiao-yan. "相位不变性的若干讨论" [Some discussions on phase invariance]. 大学物理 (College Physics). 25 (2): 30. ISSN 1000-0712.
  8. ^ Ni, Guang-Jiong (2004). "Cosmic Ray Spectrum and Tachyonic Neutrino". arXiv:hep-ph/0404030v1.
  9. ^ Ni, Guang-Jiong (2002). "Superluminal Paradox and Neutrino". arXiv:hep-ph/0203060v1.
  10. ^ Ni, Guang-Jiong (2004). "A minimal three-flavor model for neutrino oscillation based on superluminal property". Rel.grav.cosmol. 1: 137–148. arXiv:hep-ph/0306028. Bibcode:2004rgc..conf..137N.
  11. ^ Ni, Guang-Jiong (2002). "There might be superluminal particles in nature". arXiv:hep-th/0201077v1.
  12. ^ "Announcements". Foundations of Physics. 29 (1): 139–141. 1999. Bibcode:1999FoPh...29..139.. doi:10.1023/A:1018825405998 – via Springer.
  13. ^ "Special Relativity". Archived from the original on 2011-10-11. Retrieved 2011-10-15.
  14. ^ "Relativity, Gravitation, Cosmology, Contemporary Fundamental Physics" under the direction of Valeri Dvoeglazov, Chapter 12, page 149
  15. ^ "The Doctrine of Trialism".
  16. ^ "Inductive capacitive coupling - Electrical information". Archived from the original on 2012-04-25. Retrieved 2011-10-15.