About


Centre for Nonlinear Science (CeNSc) was established in the year 2005 under the auspices of the Department of Science and Technology with a seed grant of Rs. 8 Lakhs. The focus of the CeNSc is to investigate the impact of non-linearity in different branches of physics like hydrodynamics, optics, condensed matter physics etc. Situated in a semi urban area which stands isolated from hardcore research activities, CeNSc has grown into a full- fledged premier research institute with special emphasis on “Theoretical Physics/ Nonlinear Dynamics” on the lines of Institute of Mathematical Sciences, (I MSc), Chennai in a span of two decades. CeNSc has so far completed ten major sponsored research projects funded by DST, UGC, DAE-NBHM and CSIR worth to the tune of around 2 crores and has entered into thriving collaboration with leading institutes in India and abroad.

Centre for Nonlinear Science (CeNSc) – Two Decades of Excellence in Research

SPONSORED PROJECTS HISTORY

S.No.

Funding Agencies

Title of the Project

Duration

Amount

1.

DST- CURIE

DST Consolidation of University Research for Innovation and Excellence in Women Universities

(CURIE)

(2022-

2025).

(Ongoing)

Rs. 40,95,360/-

2.

DAE-NBHM

Investigation of PT-Symmetric and non PT-Symmetric variable coefficient NonlinearSchrodinger type equations

2021-2024

(Ongoing)

Rs. 15,87,400/-

3.

CSIR

Exploring the Ultracold Atom Dynamics Through PT Symmetry

2019-2022.

(Completed)

Rs. 35,68,910/-

4.

DAE-NBHM

A New Algorithm to study the variable coefficient Gross-Pitaevskii (GP) Type equations

2015-2018

(Completed)

Rs. 13,72,000/-

5.

CSIR

“Ultra cold atoms dynamics through a versatile analytical and Numerical approach

2015-2018

(Completed)

Rs. 11,50,000/-

6.

DST

Dynamics of Bose Einstein condensates with both short range and Long range interactions

2013-2015

(Completed)

Rs. 12,44,400/-

7.

UGC

Penetrating into the domain of the Bose Einstein Condensates

2011-2014

(Completed)

Rs. 9,36,800/-

8.

DAE – NBHM

Exploring the dynamics of Bose- Einstein Condensates through a new analytical approach

2011-2014

(Completed)

Rs. 11,68,180/-

9.

DST

Identification of Localized Excitations in Bose-Einstein condensates and their Interaction

2008-2011

(Completed)

Rs. 10,16,148/-
10.

UGC

Minor Research Project

2008-2010

(Completed)

Rs. 80,000/-
11.

DST

Localized Coherent Excitationsin (2+1) Dimensional Nonlinear Systems

2005-2008

(Completed)

Rs. 8,10,600/-

IT INFRASTRUCTURE AT CeNSc

S.No

Workstations with details

Configurations

NUMBER

Rate
1.

I9 Workstation

Intel Core i9 @9980x Processor, LGA 2066 X299 Series Motherboard, 64GB DDR 3000 RAM (4*16GB), 1 TB SSD Hard drive,

2 TB SATA Harddisk@7200RPM, Liquid Cooler(H100i), Nvidia Geforce GTX-1660 6G Graphics, Corsair 175R Cabinet, USB Keyboard & Optical Mouse, 27’’ 4k LED

Monitor

1

 3,05,500/-
2.

Z600

Workstation

Intel XEON E5607 2.26 SMB / 10664C CPU-1

Intel XEON E5607 2.26 SMB / 10664C

CPU-2

 1 1,97,000/-
3.

Z620

Workstation

HP Z640 Country Kit, HP Z 620 800W 90

Percent Efficient Chanis, HP Single Unit Packaging, 16GB DDR3 RAM, 1TB, 7200

RAM SATA HDD, HP USB Keyboard and Optical Mouse, Nivida QUADRO 410 512MB Graphics Card, HP 20’’ LED

Monitor

 1 3,56,400/-
4.

Z640

Workstation

HP Z640 Country Kit, HP Z640 9254 90

Percent Efficient Chanis, HP Linux Installer Kit, HP Single Unit Packaging 2k intel Xeon E5-2620V96 Core Processor @

2.4GHz 1TB 7200 RPM SATA 1st HDD

32GB DDR-2139(2*16GB) 2CPU registered RAM Nvidia 1 GB Graphics Card HP USB Keyboard, HB USB 1000DDPI Laser mouse

9.5 MMSLIM DVD-ROM 1st ODD HP

 1 3,49,000/-
5.

Book - Pro

Apple Mac

 1 1,00,000/-
6.

Scanner

Cannon Scanner

 1 3,900/-
7.

Laptop

HP Pavilion Laptop

 1 53,499/-

8.

I Pad

Apple I pad

1

 90,800/-

9.

Printers

  • CANON LBP3300 DUPLEX PRINTER

  • EPSON L3150 All in one Ink Tank Printer

  • CANON IMAGE CLASS MF 4890 dw

3

 11,000/-
13,800/-
42,000/-
10.

Xerox Machine

SHARP AR 5516 Digital MFD

1

 37,856/-
11.

Fax Machine

BROTHER Fax Cum Telephone Sno C8K 446002

1

 6,200/-
12.

Air Conditioner

LG Air Condition (Model: LSB24K1RAB1)

1

 35,500/-
13.

UPS

Microtek on-line UPS Max + 3KVA/72VDC ISO TX (Serial Nos: 23B20C4B34D00711)

1

 1,12,000/-

PUBLICATIONS

International

National

Others

Journals

Conferences

Journals

Conferences

Books / Chapters / Monographs / Manuals

77

5

1

2

-

Citation Matrix

Citations h - index i10 index

Google Scholar

 1538 21

43

Scopus

 1255 19

-

Web of Science

 1238 19

-

LIST OF PUBLICATIONS

Journals

  1. R. Radha and M. Lakshmanan, “Multisoliton generation in inhomogeneous nonlinear Schrödinger and Heisenberg Spin Systems”, Chaos, Solitons and Fractals 4, 181 (1994).

  2. R. Radha and M. Lakshmanan, “Singularity analysis and bilinear form of a (2+1) dimensional nonlinear Schrödinger (NLS) equation”, Inverse Prob. 10, L29 (1994).

  3. R. Radha and M. Lakshmanan, Singularity analysis and localized coherent structures in (2+1) dimensional generalized Korteweg-de Vries equations, J.Math.Phys. 35, 4746 (1994).

  4. R. Radha and M. Lakshmanan, “Dromion like structures in the (2+1) dimensional breaking soliton equation”, Phys. Lett. A 197, 7 (1995).

  5. R. Radha and M. Lakshmanan, “On the integrability and singularity structure aspects of deformed nonlinear evolution equations of AKNS type”, J.Phys. A 28, 6977 (1995).

  6. R. Radha and M.Lakshmanan, “The (2+1) dimensional Sine-Gordon equation: integrability and localized solutions”, J. Phys. A 29, 151 (1996).

  7. R. Radha and M. Lakshmanan, “Localized coherent structures and integrability in ageneralized (2+1) dimensional nonlinear Schrodinger (NLS) equation”, Chaos, Solitions and Fractals 8, 17 (1997).

  8. R. Radha and M. Lakshmanan, “Exotic coherent structures in the (2+1) dimensional long dispersive wave (2LDW) equation”, J.Math. Phys. 38, 292 (1997).

  9. R. Radha and M. Lakshmanan, “A new class of induced localized coherent structures in the (2+1) dimensional nonlinear Schrödinger equation”, J. Phys. A 30, 3229 (1997).

  10. M. Lakshmanan and R. Radha, “Localized coherent structures of (2+1) dimensionalgeneralization of soliton systems”, Pramana 48, 163 (1997).

  11. R. Radha and M. Lakshmanan, “Generalized dromions in the (2+1) dimensional Long dispersive wave (2LDW) and scalar nonlinear Schrödinger (NLS) equations”, Chaos,Solitons and Fractals 10, 1821 (1999).

  12. R. Radha, S. Vijayalakshmi and M. Lakshmanan, “Explode-Decay Dromions in the non- isospectral Davey-Stewartson I (DSI) Equation”, J. Nonlinear Mathematical Physics 6, 120 (1999).

  13. R. Radha, C. Senthilkumar and M. Lakshmanan, “Exponentially Localized Solutions in the Melnikov Equation”, Chaos, Solitons and Fractals 22, 705 (2004).

  14. R. Radha, C. Senthilkumar, M. Lakshmanan, X.Y. Tang and S.Y. Lou, “ Periodic and Localized solutiions of the Long Wave-Short Wave Resonance interaction equation”, J. Phys. A: Math. Gen. 38, 9649 (2005).

  15. R. Radha, and S.Y. Lou, “Integrability and Novel Localized Solutions in the (2+1) dimensional generalized sasa-satsuma equation”, Physica Scripta 72, 432 (2005).

  16. R. Radha, X.Y. Tang and S.Y. Lou, “Painleve Truncation Method – A unified approach to exact solutions and Dromion Interactions of (2+1) Dimensional Nonlinear Systems”, Z. Naturforsch 62, 107 (2007).

  17. R. Radha and V. Ramesh Kumar, “Explode-Decay Solitons in the Generalized Inhomogeneous Higher order Nonlinear Schrodinger equations”, Z. Naturforsch 62, 381 (2007).

  18. R. Radha and V. Ramesh Kumar, “Bright Matter wave solitons and their collision in Bose-Einstein condensates”, Phys. Lett. A 370, 46 (2007).

  19. R. Radha and V. Ramesh Kumar, “Gauge equivalence of Gross-Pitaevskii equation and the Equivalent Heisenberg Spin Chain”, Physica Scripta 76, 431 (2007).

  20. R. Radha, “Induced explode –Decay Dromions in the nonisospectral (2+1) Nonlinear Schrodinger Equation”, European Physical Journal D 45, 317 (2007).

  21. V. RameshKumar, R. Radha and Prasanta K. Panigrahi, “Dynamics of Bose- Einstein condensates in a time dependent trap”, Phys. Rev. A 77, 023611 (2008).

  22. R. Radha, V. Ramesh Kumar and K. Porsezian, “Remote Controlling the dynamics of Bose Einstein condesates under time dependent trap”, Journal of Physics A 41, 315209 (2008).

  23. V. RameshKumar, R. Radha, M. Wadati, “Collisions of soliton in the Electromagentically induced Transparency”, Phys, Rev. A (Rapid Commun) 78, 041803R, (2008).

  24. C. Senthilkumar, R. Radha and M. Lakshmanan, “Trilinearization and Localized solutions of (2+1) dimensional K-dV and NNV equations”, Chaos, Solitons and Fractals 39, 942 (2009).

  25. R. Radha, C. Senthil Kumar, M. Lakshmanan and C. R. Gilson, “The Collision of multimode dromions and a firewall in the two component long wave short wave resonance interaction Equation”, Fast Track Communications, J. Phys. A 42, 102002 (2009).

  26. V. Ramesh Kumar, R. Radha and Prasanta K. Panigrahi, “Matter wave interference pattern in the collision of bright solitons”, Phys. Lett. A 373, 4381 (2009).

  27. R. Radha and V. Ramesh Kumar, “Interplay between Nonlinearity and Dispersion in the Femtosecond NLS equation”, Z. Naturforsch A 65a, 1 (2010).

  28. R. Radha, V. Ramesh Kumar and Miki Wadati, “Line Soliton Dynamics and Stability Bose- Einstein Condensates in (2+1) GP equation”, J. Math., Phys 51 , 043507 (2010).

  29. V.Ramesh kumar , R. Radha, and Miki Wadati, “Phase Engineering and Solitons of Bose Einstein Condensates with Two and Three Body Interaction”, J. Phys. Soc. Jpn 79, 074005 (2010).

  30. V. Ramesh Kumar, R. Radha, K. Porsezian, “Intensity redistribution and Shap Changing Collision in coupled femtosecond solitons”, Eur. Phys. J. D 57, 387 (2010).

  31. R. Radha,V.Ramesh Kumar ,Miki Wadati, “Collision of Bright Vector Solitons in Two component Bose Einstein Condensates”, Phys. Lett. A 374, 3865 (2010).

  32. H. J. Shin, R. Radha, V. Ramesh Kumar, “Bose-Einstein Condensates with spatially inhomogeneous interaction and bright solitons”, Phys. Lett. A 375, 2519 (2011).

  33. R. Radha , P.S.Vinayagam, “Stabilization of Matter wave solitons in weakly coupled atomic condensates”, Phys. Lett. A 376 , 944 (2012).

  34. J.B. Sudharsan, R. Radha and P.Muruganandam, “Collisionally inhomogeneous Bose Einstein Condensates with both binary and three body interactions in a bichromatic optical lattice” . J. Phys. B:At. Mol. Opt. Phys. 46, 015302 (2013).

  35. R. Radha. P.S.Vinayagam and K.Porsezian, “Rotation the trajectories of the bright soliton and realignment of intensity distribution in the Coupled Nonlinear Schrodinger equation”, Phy. Rev. E 88, 032903 (2013).

  36. J.B. Sudharsan, R. Radha and A.Nicolin, “Faraday waves in Cigar shaped BEC with radially inhomogeneous scattering lengths”, Rom. Rep. Phys 65, 820 (2013).

  37. P. S.Vinayagam, R. Radha and K.Porsezian, “Taming of Rogue waves in Vector BECs”, Phy. Rev. E 88, 042906 ( 2013).

  38. A.I. Nicolin, A. Balaz, J.B. Sudharsan, R. Radha, “Ground State of BEC with Inhomogeneous Scattering length”, Rom. J. Phys. 59, 204 (2014).

  39. R. Radha, P.S. Vinayagam, H.J. Shin. and K. Porsezian, “Spatiotemporal Binary interaction and Designer quasi particle condensates”, Chinese Physics B 23(3), 034214 (2014).

  40. R. Radha, P. S.Vinayagam and K. Porsezian, “Soliton Dynamics of Spatially coupled vector BECs”, Rom. Rep. Phys. 66, 427 (2014).

  41. A. Balaz, R. Paun, A.I. Nicolin, J. B. Sudharsan, R. Radha, “ Faraday waves in collisionally inhomogeneous Bose-Einstein condensates”, Phys. Rev. A, 89, 023609 (2014).

  42. V. Ramesh Kumar, Lin Wen, R. Radha and W. M. Liu, “Splitting and recombination of 2d matter-wave solitons in a transient trap”, Rom. Rep. Phys. 66, 443 (2014).

  43. R. Radha, P.S.Vinayagam, “An analytical window into the world of Ultracold atoms”, Rom. Rep. Phys. 67, 89 (2015).

  44. P. S. Vinayagam, R. Radha, Vivek M. Vyas and K.Porsezian, “Generalized gauge transformation approach to construct dark solitons of coupled Nonlinear Schrodinger type equations”, Rom.Rep. Phys. 67, 3 (2015).

  45. J. B. Sudharsan, R. Radha, H. Fabrelli, A. Gammal and B. A. Malomed, “Stable multiple vortices in collisionally inhomogeneous attractive Bose-Einstein condensates”, Phys. Rev. A 92, 053601 (2015).

  46. R. Radha, P.S.Vinayagam, J. B. Sudharsan and W. M. Liu, “Engineering bright solitons to enhance lifespan and stability of Vector BECs”, Phys. Lett. A 379, 2977 (2015).

  47. R. Radha, P.S.Vinayagam, J. B. Sudharsan and B.A. Malomed, “Persistent bright solitons of sign indefinite coupled nonlinear schrodinger equation with time dependent trap”, Communications in Nonlinear Science and Simulations 31, 30 (2016).

  48. J. B. Sudharsan, R. Radha, M. C. Raportaru, A. I. Nicolin and A. Balaz, “Faraday and Resonant waves in binary collisionally inhomogeneous Bose- Einstein Condensates”, J. Phys. B: At. Mol. Opt. Phys. 46, 165303 (2016).

  49. P. S. Vinayagam, R. Radha, K. Porsezian, “Manipulation of light in a generalized coupled Nonlinear Schrodinger equation”, Communications in Nonlinear Scienceand Simulations 37, 354, (2016).

  50. K. Subramanian, C. S. Kumar, R. Radha and T. Alagesan, “Elusive noninteracting localized solutions of (2+1) Maccari equation”, Romanian Reports in Physics 69, 2, (2017).

  51. P. S. Vinayagam, R. Radha, S. Bhuvaneshwawri, R. Ravishankar and P. Muruganandam, “Bright soliton dynamics in Spin Orbit-Rabi coupled Bose- Einstein Condensates”, Communications in Nonlinear Science and Simulations 50, 68, (2017).

  52. P. S. Vinayagam, R. Radha, A. K. Usama and L. Ling, “Collisional dynamics of solitonsin the coupled PT symmetric nonlocal nonlinear Schrödinger equations”, Communications in Nonlinear Science and Simulations 52, 1, (2017).

  53. H. Frabrelli, J. B. Sudharsan, R. Radha, A. Gammal, and Boris A. Malomed, “Solitons under spatially localized cubic-quintic-septimal nonlinearities”, J. Optics 19, 7, (2017).

  54. P. Albares, P. G. Estevez, R. Radha and R. Saranya, “Lumps and Rogue waves of Generalized Nizhnik Novikov Veselov Equation”, Nonlinear Dynamics 90, 2305, (2017).

  55. P. S. Vinayagam, R. Radha, U. Al Khawaja, Liming Ling, “New classes of solutions in the Coupled PT Symmetric Nonlocal Nonlinear Schrodinger Equations with Four Wave Mixing”, Communication in Nonlinear Science and Numerical Simulation 59, 387 (2018).

  56. R. Radha, C. SenthilKumar, R. Saranya, “Inelastic Dromions, Rogue Waves and Lumps of (2+1) dimensional Long Dispersive Wave Equation”, Wave Motion 85, 114 (2019).

  57. R Radha , C. Senthil Kumar, K. Subramanian, T. Alagesan, “Drone like Dynamics of Dromion Pairs in the (2+1) AKNS equation”, Computers and Mathematics with Applications 75, 2356 (2018).

  58. R. Radha, C. SenthilKumar, “Digging into the Elusive Localized solutions of (2+1) dimensional sine-Gordon equation” , Z. Naturforschung A 73, 415, (2018).

  59. T. A. Gadzhimuradov, A. M. Agalarov, R. Radha, B. Tamil Arasan, “Dynamics of solitons in the fourth-order nonlocal nonlinear Schrödinger equation”, Nonlinear Dynamics 99, 1295 (2019).

  60. V. Rajadurai, V. Rameshkumar, R. Radha, “Multiple bright and dark solitons in three component spinor Bose-Einstein condensates”, Phys. Lett. A 384, 126163 (2019).

  61. S. Sabari, O.T. Lekeufack, R. Radha, T.C. Kofane, “Interplay of three-body and higher- order interactions on the modulational Instability of Bose-Einstein Condensate” JOSA B 37, A54 (2020).

  62. Tamil Arasan Bakthavatchalam, Suriyadeepan Ramamoorthy, Malaikannan Sankarasubbu,R. Radha, Vijayalakshmi Sethuraman, “Bayesian Optimization of Bose-EinsteinCondensates”, Scientific Reports (Nature) 11, 5054 (2021).

  63. S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Robustness of measurement-induced correlations under decoherence effect”, Int. J Theor. Phys. 60, 2145 (2021).

  64. S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Spotlighting Quantum Phase Transition in Spin -1/2 Ising-Heisenberg Diamond Chain Employing Measurement- Induced Nonlocality”, Physica A 573 , 125932 (2021).

  65. S. Sabari, R. Tamil Thiruvalluvar, R. Radha, “Modulation instability of spin- orbit-coupled Bose-Einstein condensates in discrete media”, Phys. Lett. A 418, 127696 (2021).

  66. S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Signatures of intrinsic decoherence and weak measurements on quantum correlations”, Laser Phys. Lett. 19, 015204 (2022).

  67. Sabari Subramaniyan, Kishor Kumar Ramavarmaraja, R. Radha, and Boris A Malomed “Interplay between binary and three-body interactions and enhancement of stability in trapless dipolar Bose-Einstein condensates”, Applied Sciences 12, 1135 (2022).

  68. R. Radha, C. SenthilKumar, “Localized excitations and their collisional dynamics in (2+1) dimensional Broer-Kaup-Kupershmidt equation” , Romanian Reports in Physics 74, 104 (2022).

  69. Tamil Arasan Bakthavatchalam, Selvakumar Murugan, Suriyadeepan Ramamoorthy,Malaikannan Sankarasubbu, R. Radha, Boris A.Malomed and Vijayalakshmi Sethuraman, “Primer on solving differential equations using Machine learning techniques”, Romanian Report in Physics 74, 113 (2022).

  70. S. Sabari, R. KishorKumar, R. Radha, P. Muruganandam, “Stability of Polariton-ExcitonBose-Einstein Condensate”, Phy. Rev. B 105, 224315 (2022).

  71. S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Quantum correlations and coherencein Unruh-deWitt detector”, Physica A 604, 127934 (2022)

  72. P. Naveena, S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Quantum correlations in mixed spin-(1/2,1) Heisenberg dimer”, Journal of Magnetism and Magnetic Materials 563,169863 (2022).

  73. R. Radha, Sudhir Singh, C. Senthil Kumar and Sen Yue Lou, “Elusive Exotic Structures and their Collisional Dynamics in (2+1)-Dimensional Boiti-Leon- Pempinelli Equation”, Physica Scipta 97, 125211 (2022).

  74. R. Muthuganesan, S. Bhuvaneswari, and R. Radha, “Characterizing nonclassicalcorrelations of tensorizing states in a bilocal scenario”, Quantum Inf. Process 22, 44 (2023).

  75. S. Bhuvaneswari, R. Muthuganesan and R. Radha, “Thermal quantum correlations and Teleportation in a Graphene Sheet”, Applied Physics B 129, 73 (2023).

  76. B. Tamizharasan, S. Meiyazhagan, R. Radha, S. Vijayalakshmi and B. A. Malomed, “Data-driven Multi-valley Dark Solitons of Multi-component Manakov Model using Physics-Informed Neural Networks”, (Chaos, Solitons and Fractals, 172, 113509, 2023).

  77. K. Rajaswathi, S. Bhuvaneswari, R. Radha and P. Muruganandam, “Dispersion engineering in spin-orbit coupled spinor condensates driven by negative masses” (Phys.Rev.A.108,033317, 2023).

Conference Proceedings:

  1. R. Radha and B. Tamilarasan, Analytical signature of ultra cold atoms, at “Recent Trends in Material Sciences” Annamalai University, Chidambaram, on 30th Oct 2018.

  2. V. Ramesh Kumar, R. Radha and Miki Wadati, Collision of solitons in the Electromagnetically Induced Transparency, International Conference on Cold Atoms (ICCA), pp. 21, Dec.12-16 (2008), Kolkatta, India.

  3. R. Radha, V. Ramesh Kumar and K. Porzezian, Remote controlling the dynamics of Bose- Einstein condensates through time dependent atomic feeding and trap, International Conference on Cold Atoms (ICCA),pp.(38-39) Dec.12-16 (2008), Kolkatta, India.

  4. V. Rameshkumar, R. Radha and Prasant K. Panigrahi, Dynamics of Bose- Einstein Condensates in a Time-dependent trap, Nonlinear Dynamics: Concepts and Applications, Ed.M. Daniel and S. Rajasekar, (pp.129-132), 2009.

  5. C. Senthil Kumar, R. Radha and M. Lakshmanan, New Locallized Coherent Structures an Periodic Solutions of the (2+1) -dimensional KdV equation, Proceedings of the National Conference on Nonlinear System and Dynamics, RIASM, University of Madras, Chennai, India (2006) pp 7-10.

  6. C. Senthil Kumar, R. Radha and M. Lakshmanan, Singularity structure Analysis and Exponentially Localized Solutions of a (2 + 1) dimensional Non-linear Evolution equation, Proceedings of the First National Conference on “Nonlinear Systems and Dynamics”, Center for Theoretical Studies, Indian Institute of Technology, Kharagpur, India (2003) pp 29-32.

  7. M. Lakshmanan and R. Radha, Solitons and Inverse Scattering in (2 + 1) dimensions, Proceedings of the Symposium on plasma science and Technology, K. P. Maheswari (Ed.) (Wiley – Eastern, New Delhi, 1992).

BOOK PUBLISHED:

  • P. Muruganandam and R. Radha, “An Introduction to Ultracold Atoms with Analytical andNumerical Methods ” UK, 2023 (Under Preparation).

ACTIVITIES RELATING TO PROMOTION OF SCIENCE IN TAMIL NADU

Centre for Nonlinear Science (CeNSc), a premier research institute established by Dr. R. Radha came into being in 2005 under the patronage of Department of Science and Technology (DST). In a span of over a decade and a half, it has now grown into a full-fledged, internationally reputed research institute with infrastructural facilities on par with the Institute of Mathematical Sciences (IMSc), Chennai. In a semi urban town like Kumbakonam which is far away from the core research activities, CeNSc is offering a huge platform for motivated young researchers to explore their potential in nonlinear science. CeNSc has sofar completed eight major research projects sponsored by DST, DAE- NBHM, CSIR and UGC and there are two ongoing major research projects funded by CSIR and DAE-NBHM. Dr. R. Radha has so far mobilized resources to the tune of more than 1.5 crores through these projects for carrying out research in nonlinear science. CeNSc under the stewardship of Dr. R. Radha has entered into thriving collaborations with reputed research institutes in India and abroad (Japan, China, South Korea, New Zealand, UK,Israel, UAE, Romania, Spain, Serbia etc).

On the teaching front, Dr. R. Radha had recently organized a webinar on " Virtual Physics Laboratory" as a lockdown initiative and the virtual contents were uploaded in (https://youtu.be/LYiVTFQb4Uc) for the benefit of Physics teachers and Undergraduate/Postgraduate students.

This will certainly help Physics teachers across the country to take laboratory experiments to the doorstep of the students virtually.

DETAILS OF BENEFICIARIES

Name of the Student

Area of Research

Name of the

University/ Institute

Present Status

V.RAMESH KUMAR

Scalar Bose – Einstein Condensates & their

Dynamics

Bharathidasan University, Tiruchirappalli.

Asst.Professor, Velammal Engineering College, Chennai.

P.S.VINAYAGAM

Vector Bose–Einstein Condensates & their stability

Bharathidasan University Tiruchirappalli.

Asst.Professor, PSG College of Arts and Science,

Coimbatore.

J.B.SUDHARSAN

Collisionally Inhomogenous Bose-Einstein

Condensates

Bharathidasan University Tiruchirappalli.

Asst.Professor, Chennai Institute of Technology(CIT),

Chennai.

Mr.V. RAJADURAI

Spinor Bose Einstein Condensates

Bharathidasan University

Tiruchirappalli.

-

Dr.R.TAMIL THIRUVALLUVAR

BECs in Discrete Media

(Post Doctoral

Fellowship)

Bharathidasan University Tiruchirappalli.

Guest Lecturer Kundavai Naachiar Govt.College for

Women(A), Thanjavur.

Dr.S.BHUVANESWARI

Quantum Information Science

Bharathidasan University,

Tiruchirappalli.

-

Dr.S. SABARI

Bose Einstein Condensates with Long range interactions

(Post Doctoral Fellowship)

Bharathidasan University Tiruchirappalli.

Post Doctoral Fellow, University of Sao Paulo, Brazil.

Mr.B. TAMILARASAN

Machine Learning

Bharathidasan

University Tiruchirappalli.

Software Engineer, SAAMA AI Lab,

Chennai

Mr.K. SUBRAMANIAN

Truncated Painleve Approach

Bharathidasan University

Tiruchirappalli.

Assistant Professor,

S.R.M Institute, Chennai

MS.R. SARANYA

(2+1) Nonlinear pdes

Bharathidasan University

Tiruchirappalli.

-

MS.G. PONMALAR

BECs in Discrete Media

Bharathidasan

University Tiruchirappalli.

-

MR.C. SENTHIL KUMAR

(2+1) Dimensional Soliton

Bharathidasan University Tiruchirappalli.

Professor & Head Vinayaka Mission’s Deemed University,

Salem.

TIE - UPS AND COLLABORATIONS:

  1. International Collaboration

    1. Shanghai Jiao Tong University Shanghai, China

    2. University of Tokyo, Tokyo, Japan

    3. University of Glasgow, UK

    4. University of Kung Kee, Seoul, South Korea

    5. University of Bucharest, Romania

    6. University of Serbia, Serbia

    7. University of Beijing, Chinese Academy of Sciences, Beijing, China

    8. University of Sau Paulo, Brazil

    9. University of Tel Aviv. Israel

    10. University of Salamanca, Spain

    11. University of AL Ain, UAE

    12. Institute of Physics, Russian Academy of Science, Makhachkala 367 003, Russia

    13. University of Cameroon, Cameroon, South Africa

    14. University of Dunedin, New Zealand

    15. Instituto de Alta Investigacion, Universidad de Tarapaca, Casilla 7D, Arica 1000000, Chile.

  2. NATIONAL COLLABORATION

    1. IMSc, Chennai.

    2. IISER, Kolkata.

    3. Central University of Pondicherry, Pondicherry.

    4. Bharathidasan University, Tiruchirappalli.

    5. SASTRA, Thanjavur

    6. Presidency College, Chennai

    7. VMKVEC, Salem

    8. SAMA Artificial intelligence Lab, Chennai

    9. Velammal Engineering College, Chennai

  3. DISTINGUISHED VISITORS

S.No

 Name Country

1

Dr.Alexandru I Nicolin

University of Bucharest, Romania.

2

Dr. Mihelea Carina Raportaru

University of Bucharest, Romania.

3.

Prof. Yvehe Kosman Swarchbach

Ecole Polytechnique, Paris.

4

Prof. M Lakshamanan

Bhatnagar Laureate 1992, Bharathidasan University, India.

5

Prof. K Prochezhian

Pondicherry University, India.

6

Dr. P Muruganandam

Bharathidasan University, India.

7

Dr .M Senthilvelan

Bharathidasan University, India.

8.

Dr. S. Lakshmi Bala

IIT, Madras

9.

Dr. Prof. R.Sriram

University of Madras

10.

Prof. V.Balakrishnan

IIT, Chennai

11.

Prof.R.Simon

IMSc, Chennai (Bhatnagar Laureate 2001)

12.

Prof. K.P.N. Murthy

IGCAR, Kalpakkam

13.

Prof. Dr. N.Bhaskaran

NIT, Tiruchirappalli