About Me |
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I completed my Graduation (in Physics Honours) at Ravenshaw College in 1983 and M.Sc. at IIT, Kanpur in 1985. Subsequently, I joined the Physical Research Laboratory (PRL) at Ahmedabad, Gujarat for my Ph.D. degree in Theoretical Nuclear (Structure) Physics; received the Ph.D degree from Gujarat University in 1993. I carried out two Post Doctoral Fellowships, first at PRL, Ahmedabad and then at National Aerospace Laboratories (NAL), Bangalore. I then took up a Lecturer position at Birla Institute of Technology and Science (BITS), Pilani where I continued for 3 years up to 1998. Subsequently I worked at various teaching positions in Kalinga Institute of Technology and Science (KITS), Bhubaneswar; ICFAI University campuses at Bhubaneswar, Ranchi and Raipur. I joined my present position as Professor of Physics at CUTM, Bhubaneswar Campus in June 2012. During these years I have taught a large number of courses spanning courses at BSc, MSc, M.Phil and Ph.D levels. I have published 14 publications in peer reviewed journals and 10 in national and international conferences. |
Book Chapters
1. "Bulk diffusivity Measurement in (Liquid) Solute-Solvent Systems", Subrata Sarangi, in "Nanoscience and Nanotechnology in Multifunctional Applications, Amazon (e-Books, ISBN-13: 979-8561484759), (2020), pp. 251-274.
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Conference Proceedings: (all national)
1. “IBM and the Dynamic Fermion Basis for Zn Isotopes†by Subrata Sarangi and Jitendra C. Parikh, DAE Symposium in Nuclear Physics (1990) at Madras University, Chennai.
2. “IBM-2 Spectra of 1n-1p Boson Systems in Microscopic Basis†by Subrata Sarangi and Jitendra C. Parikh, DAE Symposium in Nuclear Physics (1991) in BARC, Mumbai
3. “A Dynamic Microscopic Basis for IBM: Study of Vibrational and Rotational Atomic Nuclei†by Subrata Sarangi at DAE Symposium in Nuclear Physics (1992) in BARC, Mumbai
4. “Modeling the EEG Time Series†by Subrata Sarangi, R. Pratap, Jitendra C. Parikh at Workshop on Neuronal Modeling at TIFR, Mumbai, (1993).
5. “Paradigm and Development of a Neural Network- Dynamical Model Hybrid Prediction Scheme†by P.Goswami, S. Sarangi, and P.Boominathan (1995) Internal Report, Centre for Mathematical Modeling & Computer Simulation, National Aerospace Laboratories, Bangalore.
6. “Masses of P and D light unflavored mesons with confined one gluon exchange potential†by K.B. Vijaya Kumar, Subrata Sarangi, A.K. Rath and S.B. Khadkikar at DAE Symposium in Nuclear Physics (2003) at BARC, Mumbai
7. “The role of the anti-symmetric spin-orbit potential in the K-meson sector†by Bhavyashri, K.B.Vijaya Kumar, K.Upadhyaya, S. Sarangi and A.K.Rath at DAE Symposium in Nuclear Physics (2004) at BHU, Varanasi.
8. “Do odd-A Sm isotopes also exhibit shape transition?â€, by S.Sarangi and S.G. Zhou, DAE Symposium in Nuclear Physics (2007) at Sambalpur University, Jyoti Vihar, Burla.
9. “Role of pion condensates in asymmetric nuclear matterâ€, by S. Sarangi, P.K. Panda, S.K. Sahu and L. Maharana, Proceedings of DAE Symposium in Nuclear Physics (2008) Dec. 22-26, 2008 at IIT, Roorkee.
10.“Symmetry energy parameters in pion-dressed asymmetric nuclear matterâ€, by S. Sarangi, P.K. Panda, S.K. Sahu, and L. Maharana, Proceedings of DAE Symposium in Nuclear Physics 60 (2015) Dec. 7-11, 2015, Sri Sathya Sai Institute of Higher Learning, Prashanthi Nilayam, Puttaparthi.
11. “Laser Assisted Measurement of Diffusion Coefficient of Sucrose in Aqueous Solutionâ€, S Tanuja Rani, Soumya Ranjan Das, S Sarangi, ICMSEA 2019.
12. “Ideal Gas-Like Surface Behavior of Surfactant Molecules in Liquids Leading to Langmuir-Blodgett Monolayersâ€, Abhilipsa P Das, Sunita Sahu, S Sarangi, ICMSEA 2019.Sl. No. | Title | Issuer |
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A dynamic microscopic basis for the construction of Interacting Boson Model-2 is proposed in this work. The Scheme is validated for even-even Ni20, Ti44, Zn60 and Mo94 isotopes.
The dynamic microscopis basis for Interacting Boson Model is further developed and validated for Even-Even Mo and Sm Isotopes.
Meson Spectrum in a non-relativistic model with
instanton induced interaction”, by Bhavyashri, K.B.Vijaya Kuamr, B.
Hanumaiah, S.Sarangi and Shan-Gui
Zhou, Journal of Physics G: Nuclear and Particle Physics, Vol. 31 (2005), 981-986.
The Effect of Instanton Induced Interaction on
P-wave meson spectra in constituent quark model”, by Bhavyashri,
S.Sarangi, Godfrey Saldanha and K.B.
Vijaya Kumar, Pramana-J. Phys, Vol. 70(1) (2008), 75-85. (N) (IF: 1.185 (as on 03.05.2020))
Asymmetric Nuclear Matter: A Variational
Approach”, by S. Sarangi, P.K.
Panda, S.K. Sahu and L. Maharana, International Journal of Modern Physics B,
Vol. 22 (Nos. 25 &26) (2008),
4524-4537.
“Pion correlations in nuclear matter”, by P.K. Panda, S. Sarangi and J. da Providencia, International Journal of Modern
Physics E, Vol. 20(1), (2011), 63-80.
“Dielectric and
Ferroelectric Behavior of Bismuth-Doped Barium Titanate Ceramic Prepared by
Microwave Sintering”, by A. Mahapatra, S. Parida, S. Sarangi & T. Badapanda, The Journal of The Minerals, Metals
& Materials Society (TMS), Published online Dec. 2014(JOM, 67(8), 1896-1904
(2014)),
“EFFECT OF GRAPHENE
/MONTMORILLONITE ON CHITOSAN NANOCOMPOSITES WITH MODIFIED MORPHOLOGY, THERMAL
AND ELECTRICAL PROPERTIES " by SUCHISMITA
MOHANTY, SUBRATA SARANGI & GOURI SANKAR ROY, INTERNATIONAL JOURNAL OF PHYSICS AND RESEARCH
(IJPR); ISSN (ONLINE): 2319-4499; ISSN (PRINT): 2250-0030; VOL - 5, ISSUE – 4,
pp 29-38; EDITION: AUG2015(I)
“Preparation and Characterization
of Graphene-grafted Chitosan/ polypyrrole Composite for Thermal, Mechanical and
Electrical Properties”, by Suchismita Mohanty, Subrata Sarangi and Gouri
Sankar Roy, International Journal for Research in Applied Science and
Engineering Technology, Vol 5(XII), Dec 2017, pp 1367-1372.
“Preparation and Characterization of Graphene Graphted
Chitosan/Orthophenylenediamine Composites for Thermal, Mechanical and
Electrical Properties”, Suchismita Mohanty,
Subrata Sarangi and Gouri Sankar Roy, International Journal of Creative
Research Thoughts, March 2018, pp 1352-1361
“Formulation and Evaluation of Chitosan
Nanoparticles Coated Graphene-Gold Nanoparticles for Controlled Released of
Anticancer Drug Vincristine”, Suchismita Mohanty and Subrata Sarangi, Journal
of Advanced Nano-biotechnology,.Volume 2(1), 2018, pp 29- 43
"FORMULATION AND
EVALUATION OF GRAPHENE GRAFTED CHITOSAN/ POLYANILINE NANOCOMPOSITES FOR
CONTROLLED RELEASE OF ANTICANCER DRUG DOXORUBICIN”, Suchismita Mohanty, Subrata Sarangi, and Gouri
Sankar Roy , International Journal of Applied Pharmaceutics ISSN- 0975-7058 Vol 11,
Issue 3, pp138-143, 2019
The present manuscript analyzes the dielectric relaxation and conduction behavior of samarium modified sodium
bismuth titanate ((Bi(1-x)Smx)0.5Na0.5TiO3) ceramic prepared by solid-state reaction process. The X-Ray
Diffraction acknowledges the presence of rhombohedral (R3c) phase in all composition with existence of small
secondary phase for composition more than 2% of Sm doping. The dielectric relaxation and conduction mechanism
of the compositions were studied through the impedance spectroscopy. The impedance values initially
decrease up to doping level of x = 2% and increase with higher doping concentration. The Cole-Cole plot indicates
the existence of grain and grain boundary resistance in all compositions. The conductivity enhances up to
x = 0.02 and then reduces with doping concentration, and the conductivity spectra fitted with the modified
Jonscher’s power law indicates that small polaron hopping is the dominant phenomena for conduction in all
compositions. The activation energy related to relaxation and conduction was obtained using the Arrhenius
equation, and activation energy obtained specifies a reduction in oxygen vacancies with doping. The activation
energy suggests that the oxygen vacancies associated with the short-range hopping is responsible for relaxation
and doubly ionized oxygen vacancies are responsible for conduction.
A technique to measure the bulk diffusivity of transparent aqueous solution into liquid water is elaborated. The results of applying this procedure to the case of diffusion of Sucrose Solution in water are presented.
Simulations of orbital dynamics of the binary star system Alpha Centauri A and Alpha Centauri B with a hypothetical exo-planet orbiting Alpha Centauri A is carried out and presented. A spectral analysis method to detect such an exoplanet from the observed astrometric orbital dynamics of the host star is also presented.
An image processing technique to measure bulk diffusivity of a colored aqueous solution in liquid water is developed and described, The procedure is illustrated for aqueous solution of KMnO4. The results are presented.
Composition induced structural, dielectric, ferroelectric and optical
phase transitions in Bismuth doped Barium Titanate ceramic has been studied from synthesis to characterization.
Dielectric and relaxor behavior of Bismuth doped Barium Titanate ceramic is studied; results reported.
Then dielectric and optical properties of Lead Free Bismuth Sodium Titanate (BNT) Ferroelectric Ceramic have been investigated; results presented.
The structural, dielectric and optical properties of Dysprosium doped Barium Titanate ceramics have been investigated and results have been reported.
Effect of composition on dielectric and variable range hopping mechanism in Dysprosium doped BNT-BT ceramics is studied and results are presented.
Possibility of astrometric exoplanet detection in Alpha Centauri system by Intensity Interferometry is simulated; results presented.
Possibility of astrometric exoplanet detection in Alpha Centauri system by Intensity Interferometry is simulated; results presented.