Английская Википедия:Dharam Vir Ahluwalia

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Шаблон:Short descriptionШаблон:Use American English Шаблон:Use dmy dates Шаблон:Infobox scientist Dharam Vir Ahluwalia[1] (born October 20, 1952, in Fatehpur, Kaithal, India) was an Indian-born American theoretical physicist who made significant contributions to physics of neutrino oscillations, gravitationally induced phases, interface of the gravitational and quantum realms, and mass dimension one fermions.[2][3] In 2019 he published Mass Dimension One Fermions .[4]

Early life and education

Dharam Vir was born in India. He was a US citizen and a permanent resident of New Zealand.[5]

In 1991, he obtained a Ph.D. from Texas A&M University. During 1992 to 1998 he was at the Los Alamos National Laboratory as a director's postdoctoral fellow and later as a scientist/consultant. From 1998 to 2006 he was a professor of mathematics at the Autonomous University of Zacatecas in Mexico. For the period 2006-2013 he served as a senior lecturer in physics at the University of Canterbury in Christchurch, New Zealand, and afterwards he was a visiting professor at numerous other institutes and universities.[5]

Awards and editorships

He was recipient of a Gravity Research Foundation First Prize (1996, jointly with Christoph Burgard),[6] Fourth Prize (1997),[7] Third Prize (2004),[8] and Fifth Prize[9] (2000), with Gilma Adunas, E. Rodriguez-Milla.

He was on the editorial boards of Modern Physics Letters A,[10] the International Journal of Modern Physics A[11] and the International Journal of Modern Physics D.[12]

Selected publications

  • Mass Dimension One Fermions (Cambridge Monographs on Mathematical Physics, Cambridge University Press, July 2019).[13]
  • A new class of mass dimension one fermions.[14]
  • Spin-half bosons with mass dimension three-half: Towards a resolution of the cosmological constant problem.[15]
  • The Theory of Local Mass Dimension One Fermions of Spin One Half.[16][17][18]
  • Neutrino mixing matrix.[19]
  • Gravitationally induced neutrino-oscillation phases and neutrino oscillations as powerful energy transport mechanism for type-II supernova explosions.[20][21]
  • GR and QM imply quantized spacetime.[22]
  • Wave particle duality at the Planck scale.[23]

References

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