List of Publications

 


Voluminous original research work is published in form of research papers in field of Plasma & Electromagnetics/Plasma Communication Electronics/Plasma Physics/Plasmas & Wave Interactions apart from, some research work in the field of Properties of Electrical Engineering Materials. Various research articles published are given below:

1. Bhagavat, G.K. and Nandedkar, D.P., (1968): “Dielectric measurements in plasma at very high frequencies (150-200 Mc/s)”, ‘Journal of the Institution of Telecommunication Engineers (India)’ Vol. 14, pp. 161-168, 1968;
2. Bhagavat, G.K. and Nandedkar, D.P., (1968) “A new method of determining the electron density and collision frequency in plasma”, ‘International Journal of Electronics (London)’, Vol. 24, pp. 79-87, 1968;
3. Bhagavat, G.K. and Nandedkar, D.P., (1968): “Investigation of the damped oscillations in plasma’‘, International Journal of Electronics (London)’, Vol. 24, pp. 535-541, 1968;
4. Bhagavat, G.K. and Nandedkar, D.P., (1968): “Energy density and velocity of energy transport of a r.f. wave in plasma when the wave frequency approaches the frequency of damped oscillations. Part I” ‘International Journal of Electronics (London)’ Vol. 25, pp. 133-142, 1968; [Abstract of this paper reports "Discovery of Plasma Damped Oscillations"]
5. Bhagavat, G.K. and Nandedkar, D.P., (1968): “Energy density and velocity of energy transport of a r.f. wave in plasma when the wave frequency approaches the frequency of damped oscillations. Part II”, ‘International Journal of Electronics (London)’ Vol. 25, pp. 143-151, 1968;
6. Bhagavat, G.K. and Nandedkar, D.P., (1968): “Analysis and detection of backward waves in plasma in the region of anomalous dispersion”, ‘International Journal of Electronics (London)’, Vol. 25, pp. 249-256, 1968;
7. Nandedkar, D.P. and Bhagavat, G.K., (1969): “Analysis of absorption of a r.f. wave in plasma in the region of anomalous Dispersion”, ‘International Journal of Electronics (London)’, Vol. 26, pp. 269-294, 1969;
8. Nandedkar, D.P. and Bhagavat, G.K., (1969): “Analysis of noise spectrum of the absorbed r.f. wave in plasma in the region of anomalous dispersion”, International Journal of Electronics (London)”, Vol. 26, pp. 345-367, 1969;
9. Nandedkar, D.P. and Bhagavat, G.K., (1969): “Wave front and signal velocities of a r.f. wave in plasma in the region of backward waves”, ‘International Journal of Electronics (London)’, Vol. 27, pp. 31-47, 1969;
10. Nandedkar, D.P. and Bhagavat, G.K., (1970): Quantum theory of finite d.c. resistivity of plasma”, ‘International Journal of Electronics (London)’, Vol. 28, pp. 51-77, 1970;
11. Nandedkar, D.P. and Bhagavat, G.K., (1970): “Analysis of d.c. noise spectrum in plasma”, ‘International Journal of Electronics (London)’, Vol. 29, pp. 329-336, 1970;
12. Nandedkar, D.P. and Bhagavat, G.K., (1970): “Damped oscillations in plasma”, ‘International Journal of Electronics (London)’, Vol.29, pp.337-347, 1970;
13. Nandedkar, D.P. and Bhagavat, G.K., (1970): “DC noise in plasma due to electron-ion collisions”, ‘International Journal of Electronics, (London)’, Vol. 29, pp. 513-523, 1970;

Dr D P Nandedkar’s Teacher – “The Guru”
Late Prof (Dr Ing) G K Bhagavat (Expired in 1990's)
Dept of Elect Engg, IIT, Mumbai, India

 


Research Publications in Symposiums are:

(i).”Microwave resonance absorption in plasma”, by G K Bhagavat and D P Nandedkar,
Proceedings of the symposium on "Electronics (Microwave Technology)", Bombay, Organized by Committee on Electronics, Department of Atomic Energy, Government of India, 1970
(ii). “Some electrical properties of plasma, noble metals and, intrinsic germanium and silicon (Parts I, II and III),
Part I: Electron-Ion Collision Frequency in Plasma,
Part II: Conductivity of Noble Metals and
Part III: Mobility of Intrinsic Germanium & Silicon”,
by D P Nandedkar, Abstract-Record [-where only 'Abstract(s)' & not 'Complete Paper(s)' given], The silver jubilee symposium on "Electronics & Communications in the 80's", Co-Sponsored by Department of Electronics, Department of Space, Department of Science and Technology and, Tata Institute of Fundamental Research , Organized by Department of Electrical Engineering, Indian Institute of Technology, Bombay, 1983


TECHNICAL INFORMATION:

In the Sections of Papers Published in Refereed Journals and Papers Presented in Refereed Symposiums given herewith, a Discovery is reported of Damped Oscillations in Plasma with reference to various Classical & Quantum Plasma Model(s), for which is received from IBC - The International Biographical Centre, Cambridge, England,

"A Diploma of Achievement (2008-2009)" in "Discovery of Plasma Damped Oscillations and, the New Classical Plasma Model along with New Models of Electromagnetic, DCs & DC Coupled Plasma Quantum Noises".

Also, various Meritorious Decoration Certificates received from IBC, England, in respect of the above are,
1. "Discovery of Plasma Damped Oscillations &, a/the New Classical and/Quantum Plasma Model(s) - Aug 2008",
2. "New Models of Electromagnetic, DCs & DC Coupled Plasma Quantum Noises - May 2008" and,
3. "Plasma Damped Oscillations & a New Plasma Model - Sept 2007", respectively.

RECENT PUBLICATIONS:-

Published a Voluminous Original Research-Work of Research Articles in Physics Journal, AIS, (PSF), USA during 2015-2016, on Microelectronics & Communication, and/ Plasma Communication Electronics, pertaining to the Branches of Education of Physics and/ Plasma Physics, Stellar Physics (Solar & Ex-Galaxial plasma noises), Properties of Electrical Engineering Materials (such as Conductivity of Noble Metals, Quantum nature of Dipole Aerial Radiation from them, Mobility of Ge & Si and Dipole Relaxation Time of Polar Water Molecules) including Cosmic Rays. List of the recent published articles (2015-2016) is given below:

[1]. Nandedkar D. P., (2015): “Analysis of Conductivity of Noble Metals Near Room Temperature”, Vol. 1, No. 3, pp. 255-265, Publication Date: 16 Oct 2015, Physics Journal, PSF-Public Science Framework, AIS- American Institute of Physics, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=1980]
[2]. Nandedkar D. P., (2015): "Quantum Theory of R.F. Radiation from a Short,Straight and Thin Wire of Noble Metal (0.3 MHZ to 30 MHZ)", Vol. 1, No. 3, pp. 301-319, Publication Date: 11 Nov 2015, Physics Journal, PSF-Public Science Framework, AIS- American Institute of Physics, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=1982]
[3]. Nandedkar D. P., (2016): “Analysis of Dipole Relaxation Time for Water Molecules at Temperature of 293°K”, Vol. 2, No.1, pp. 15-22, Publication Date: 29 Dec 2015 , Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2141]
[4]. Nandedkar D. P., (2016): “Analysis of Mobility of Intrinsic Germanium and Silicon near Room Temperature”, Vol. 2, No.1, pp. 35-44, Publication Date: 29 Dec 2015 , Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2140]
[5]. Nandedkar D. P., (2016): "Determination of the Charge to Mass Ratio of an Electron and Classical Radius of a Gas Molecule Using the Knowledge of Electronic Damped Oscillations in Plasma”, Vol. 2, No.2, pp. 67-83, Publication Date: 11 Jan 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2157]
[6]. Nandedkar D. P., (2016): “Further Studies on D.C. Noise in Plasma Due to Electron-Ion Collisions”, Vol. 2, No.2, pp. 104-113, Publication Date: 17 Jan 2016 , Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2169]
[7]. Nandedkar D. P., (2016): “Analysis of Radiation from Photosphere of the Sun”, Vol. 2, No.2, pp. 127-139, Publication Date: 17 Jan 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2186]
[8]. Nandedkar D. P., (2016): “Quantum Statistical Plasma Model Biased by a D.C. Electric Field and Perturbed by Low Power R.F. Waves”, Vol. 2, No.3, pp. 196-219, Publication Date: 17 Feb 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2168]
[9]. Nandedkar D. P., (2016): “Analysis of Cosmic Rays from Inter-Electronic Structure of the Electron”, Vol. 2, No.3, pp. 220-225, Publication Date: 17 Feb 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2187]
[10]. Nandedkar D. P., (2016): “Further Studies on Cosmic Rays from Inter-Electronic Structure of the Electron”, Vol. 2, No.3, pp. 236-245, Publication Date: 22 Apr 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2673]
[11]. Nandedkar D. P., (2016): “Analysis of Cosmic Rays from Inter-Electronic Structure of the Electron-Revised Version”, Vol. 2, No.4, pp. 246-252, Publication Date: 05 Aug 2016, Physics Journal, PSF-Public Science Framework, AIS-American Institute of Science, Boston, U.S.A. - [Paper ID = Aiscience.org/journal/paperInfo/pj?paperId=2989]