Theodor V. Ionescu Explained

Theodor V. Ionescu
Birth Date:February 8, 1899
Birth Place:Dorohoi, Botoșani County, Kingdom of Romania
Death Place:Bucharest, Socialist Republic of Romania
Citizenship:Romania
Nationality:Romanian
Field:Physics
Alma Mater:Paris-Sorbonne University
University of Iași
University of Bucharest
Doctoral Advisor:Petru Bogdan
Known For:plasma physics
magnetic resonance
first maser studies
magnetron invention
3D cinematography/TV devices
coupled electron-ion oscillations in ultra-hot plasmas
nuclear fusion in ultra-hot hydrogen plasmas

Theodor V. Ionescu (February 8, 1899  - November 7, 1988) was a Romanian physicist and inventor who made remarkable discoveries in plasma physics, ionosphere physics, ion coupling electrons in dense plasmas, masers, magnetron amplifiers, and Zeeman effects related to controlled nuclear fusion and quantum emission mechanisms in hot plasmas. He was a member of the Romanian Academy from December 21, 1935.[1]

Ph.D. studies in plasma physics

He received his Ph.D. in plasma physics, first in Paris at Paris-Sorbonne University, and then in Iași. Thus, the history of plasma physics in Romania began in 1923 with the defense of the first PhD thesis in physics at the University of Iași by Ionescu, under the guidance of Petru Bogdan. Ionescu carried out the first experimental studies in Romania of the physics of ionized gases/plasmas.

Scientific achievements and collaborators

In 1925 invented a microphone based on thermionic currents (currents emitted by heated bodies) and a light projector using the interference phenomenon.

Founded in the same year the first Electricity and Magnetism Laboratory, as well as the first Chair of Electricity and Magnetism in the Department of Mathematics and Physics at the University of Bucharest.

The first prototype of a precursor to the magnetron power amplifier

He built in 1934–1935 a precursor[2] to the high-power, multi-cavity magnetron that was built subsequently, in 1937–1940, by the British physicist, Sir John Turton Randall, FRSE together with a team of British coworkers for the British and American, military radar installations in WWII.[3] At the same time, the Telefunken Company of Berlin was 'searching' for such a device[4] but has apparently met with much less success than the British inventors or Th. V. Ionescu. (However, the split anode magnetron had first been developed in 1921 by Dr. A.E.Hull at General Electric Company in USA; also in 1921, Ernst Haban, who was working in Germany, developed a similar device that worked on a 3 cm wavelength. A strong competitor of the former inventors was also Dr. H.E.Hollman who registered many patents between 1925 and 1935 that documented devices related to magnetron development).[5]

Patents

In 1936, he obtained a patent for the 3D imaging in cinema and television. In 1946, together with physicist V. Mihu invented and built a maser-type device.

Discoveries

He worked in the early 1960s in the Laboratory of the Bucharest Institute of Plasma Physics together with his childhood friend, Octav Gheorghiu, whom he greatly respected for his exceptional human qualities. They studied systematically the resonant frequencies of molecular oxygen and hydrogen ions. Then, they published their most important experimental results in a series of articles in C. R. Acad. Sci. Paris.(pp. 245, 898, 957, 246, pp. 2250, 3598, 1958, 250, 2182 p. 1960, 252, p. 870, 1961) and Rev Roum. Phys.

In the early 1970s, together with physicists Radu Pârvan and J. C. Băianu - one of his Ph.D. research assistants in plasma physics in magnetic fields in the Electricity Department of the Faculty of Physics, Bucharest – Ionescu completed experiments on controlled magnetic resonance oscillations in ultra-hot plasmas. Such seminal experiments involved the coupling of ionic and electronic oscillations in ultra-hot plasma involving quantum amplified stimulation processes in the presence of longitudinal magnetic fields which opened novel possibilities for achieving hot nuclear fusion in the future (Achieving nuclear fusion in high pressure hot plasma).[6] The first report of these research results was presented at the French Academy of Science in Paris by Louis Néel, member of the Academy and Nobel Prize in Physics for Magnetism.[7] Additional results were then published in the same year in the internationally renowned magazine C. R. Acad. Sci. Paris.[8]

His successor as Head of Department in 1970 was Florin Ciorăscu, "imported" from the IFA, (who died in 1977 during the major earthquake in Bucharest).

References

External links

Notes and References

  1. http://www.noema.crifst.ro/doc/2007_08.pdf Elvira Botez. Academia de Științe din România. Istoricul ei. NOEMA, vol.6 (2007);(The History of the Romanian Academy of Sciences)
  2. Th.V.Ionescu. Electricity and Magnetism ("Electricitate şi Magnetism"): Course Notes., School of Physics, University of Bucharest., (1960), pp.1247
  3. http://histru.bournemouth.ac.uk/Oral_History/Talking_About_Technology/radar_research/the_magnetron.html "Radar Recollections – A Bournemouth University/CHiDE/HLF project" by Prof. W. E. Burcham
  4. http://histru.bournemouth.ac.uk/Oral_History/Talking_About_Technology/radar_research/the_magnetron.html From the 1935 magazine Electronics: "Microwaves To Detect Aircraft"
  5. http://histru.bournemouth.ac.uk/Oral_History/Talking_About_Technology/radar_research/the_magnetron.html "Radar Recollections – A Bournemouth University/CHiDE/HLF project"
  6. http://nobelprize.org/nobel_prizes/physics/laureates/1978/kapitsa-lecture.pdf PLASMA AND THE CONTROLLED THERMONUCLEAR REACTION
  7. http://nobelprize.org/nobel_prizes/physics/laureates/1970/neel-lecture.html Louis Néel: "Magnetism and the Local Molecular Field"
  8. Th.V.Ionescu et al. (1969). C. R. Acad. Sci. Paris, 270: 1321–1324

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