PUBLICATIONS OF PHYSICS
AND EARTH SCIENCES
DIVISION
2015 - 2016
To
2019 - 2020
Indian Statistical Institute
203 B T Road Kolkata 700108 India
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Content
PUBLICATIONS OF THE PHYSICS AND APPLIED MATHEMATICS UNIT 1
SUBIR GHOSH 1
BARNANA ROY 2
BANASRI BASU 3
PREETI PARASHAR 4
SUPRATIK PAL 4
DIBAKAR GHOSH 5
SANTANU MAITI 10
SANKAR SARKAR 12
GURUPRASAD KAR 13
PUBLICATIONS OF THE GEOLOGICAL STUDIES UNIT 15
DILIP SAHA 15
CHANDAN CHAKRABORTY 16
SASWATI BANDYOPADHYAY 16
PARTHASARATHI GHOSH 17
DHURJATI P. SENGUPTA 18
TAPAN CHAKRABORTY 18
SARBANI PATRANABIS DEB 20
SHILADRI SEKHAR DAS 21
AMLAN BANERJEE 21
PUBLICATIONS OF THE THEORETICAL AND APPLIED SCIENCES UNIT 23
SANJIT MAITRA 23
DARPA S JYETHI 23
SAURABH TRIVEDI 24
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Publications of the Physics and Applied
Mathematics Unit
Subir Ghosh
(Selected publications)
1. Avijit Bera, Subir Ghosh, 2020. Stimulated Hawking Emission from Electromagnetic Analogue
Black Hole: Theory and Observation. Phys. Rev. D 101 105012.
DOI: https://doi.org/10.1103/PhysRevD.101.105012.
2. Weiqiang Yang, Supriya Pan, Andronikos Paliathanasis, Subir Ghosh Yabo Wu, 2019.
Observational constraints of a new unified dark fluid and the H0 tension. Monthly Notices of the
Royal Astronomical Society 490 2071–2085. DOI: https://doi.org/10.1093/mnras/stz2753.
3. Subir Ghosh, 2019. Duality between Dirac fermions in curved space-time and optical solitons in
Non-linear Schrodinger model: Magic of 1+1 Dimentional Bosonization. Eur. Phys. J. C 79 980.
DOI: https://doi.org/10.1140/epjc/s10052-019-7502-0.
4. Joydeep Majhi, Subir Ghosh, Santanu K. Maiti, 2019. Relativistic Anyon Beam: construction and
properties. Phys. Rev. Lett. 123 164801.
DOI: https://link.aps.org/doi/10.1103/PhysRevLett.123.164801.
5. Debasmita Chatterjee, Subir Ghosh, Bijoy S. Mazumder, 2019. Development of bed forms due to
waves blocked by a counter current, Earth Surface Processes and Landforms, 44 1330-1345.
DOI: https://doi.org/10.1002/esp.4577.
6. Subir Ghosh, 2019. Geometric Phases for Classical and Quantum Dynamics: Hannay angle and
Berry Phase for Loops on a Torus. Int J Theor Phys 58 2859–2871.
DOI: https://doi.org/10.1007/s10773-019-04169-6.
7. Praloy Das, Supriya Pan, Subir Ghosh, 2019. Thermodynamics and phase transition in Shapere –
Wilczekfghfgh model: Cosmological time crystal in quadratic gravity. Phys. Lett. B791 66-72.
DOI: https://doi.org/10.1016/j.physletb.2019.02.017.
8. Kumar Das, Souvik Pramanik, Subir Ghosh, 2019. Quasinormal mode spectra for odd parity
perturbations in spacetimes with smeared matter sources, Phys. Rev. D99 2 024039.
DOI: https://doi.org/10.1103/PhysRevD.99.024039.
9. Souvik Pramanik, Subir Ghosh, 2019. AdS-CFT Correspondence in Noncommutative background,
related thermodynamics and Holographic Superconductor in Magnetic Field. Gen. Rel. Grav. 51
1, 7. DOI: https://doi.org/10.1007/s10714-018-2489-7.
10. Subir Ghosh, 2018. Particle on a torus knot: Anholonomy and Hannay angle, Int. J. Geom. Meth.
Mod. Phys. 15 06 1850097. DOI: https://doi.org/10.1142/S0219887818500974.
11. Arpan Krishna Mitra, Rabin Banerjee, Subir Ghosh, 2018. Noncommutative fluid and Growing
Modes of Inhomogeneity in (Newtonian) Cosmology. JCAP 1810 10, 057.
DOI: https://doi.org/10.1088/1475-7516/2018/10/057.
2 Publications of Physics and earth sciences division
12. Praloy Das, Subir Ghosh, 2018. Back reaction in homogeneities in the cosmological parameter
evolution via a noncommutative fluid. Phys. Rev. D98 8, 084047.
DOI: https://doi.org/10.1103/PhysRevD.98.084047.
13. Debasmita Chatterjee, B.S. Mazumder, Subir Ghosh, 2018. Turbulence characteristics of wave-
blocking phenomena. Applied Ocean Research 75 15-36.
DOI: https://doi.org/10.1016/j.apor.2018.03.011.
14. Praloy Das, Supriya Pan, Subir Ghosh, Probir Pal, 2018. Cosmological time crystal: Cyclic universe
with a small cosmological constant in a toy model approach. Phys. Rev. D98 2 024004
DOI: https://doi.org/10.1103/PhysRevD.98.024004.
15. Denis Dalmazi, A.L.R. Santos, Subir Ghosh and E.L. Mendonça, 2017. Weyl and transverse
diffeomorphism invariant spin-2 models in D=2+1. Eur. Phys. J. C77 9 620
DOI: https://doi.org/10.1140/epjc/s10052-017-5189-7.
16. Praloy Das and Subir Ghosh, 2107. Galilei group with multiple central extension, vorticity, and
entropy generation: Exotic fluid in 3+1 dimensions. Phys. Rev. D96 11 111901
DOI: https://doi.org/10.1103/PhysRevD.96.111901.
17. Arpan Krishna Mitra, Rabin Banerjee, Subir Ghosh, 2017. On the equivalence among stress
tensors in a gauge-fluid system. Int. J. Mod. Phys. A32 36 1750210
DOI: https://doi.org/10.1142/S0217751X17502104.
18. Praloy Das, Subir Ghosh, 2017. Noncommutative geometry and fluid dynamics. Eur. Phys. J. C76
(2016) no.11, 627, Erratum: Eur. Phys. J. C77 2 64. DOI: https://doi.org/10.1140/epjc/s10052-
017-4654-7, https://doi.org/10.1140/epjc/s10052-016-4488-8.
19. Praloy Das, Souvik Pramanik, Subir Ghosh, 2016. Particle on a Torus Knot: Constrained Dynamics
and Semi-Classical Quantization in a Magnetic Field. Annals Phys. 374 67-83
DOI: https://doi.org/10.1016/j.aop.2016.08.002.
20. Praloy Das, Subir Ghosh, 2016. Particle on a torus knot: a Hamiltonian analysis. Found. Phys. 46
12 1649-1665. DOI: https://doi.org/10.1007/s10701-016-0035-6.
21. Rabin Banerjee, Subir Ghosh, Arpan Krishna Mitra, 2015. Hamiltonian analysis of interacting
fluids. Eur. Phys. J. C75 5 207. DOI: https://doi.org/10.1140/epjc/s10052-015-3412-y.
22. Souvik Pramanik, Sudipta Das, Subir Ghosh, 2015. Noncommutative extension of AdS–CFT and
holographic superconductors. Phys. Lett. B742 266-273.
DOI: https://doi.org/10.1016/j.physletb.2015.01.044.
Barnana Roy
1. Naresh Saha, Barnana Roy, 2020. Solitons supported by competing nonlinearity, higher order
dispersion and PT-symmetric potential, Physics letters A 384 126245.
2. David J. Fernandez C and Barnana Roy, 2020. Confluent second order supersymmetric quantum
mechanics and spectral design, Physica Scripta 95 055210.
3. Debraj Nath, Naresh Saha and Barnana Roy, 2018. Stability of periodic waves in, 1+1.
dimensional coupled nonlinear Schrödinger equation with elliptic potentialsEuropean Physical
Journal-Plus133 504, 1-15.
4. A. Schulze-Halberg and Barnana Roy, 2018. Higher-order supersymmetric partners of
generalized quantum nonlinear oscillators. European Physical Journal-Plus 133 102, 1-17.
Publications of the Physics and Applied Mathematics Unit 3
5. D. Nath, Y. Gao, R. Babu Mareeswaran, T. Kanna and Barnana Roy, 2017. Bright-dark and dark-
dark solitons in coupled nonlinear Schrödinger equation with PT symmetric potentials. Chaos 27
123102 (1-10).
6. D. Nath, Barnana Roy and R. Roychoudhury, 2017. Periodic waves and their stability in
competing cubic-quintic nonlinearity Optics Communications 393 224-231.
7. Schulze-Halberg and Barnana Roy, 2016. Generalized quantum nonlinear oscillators: Exact
solutions and rational extensions Journal of Mathematical Physics 57 102103.
8. D. Ghosh and Barnana Roy, 2015. Nonlinear dynamics of classical counterpart of the generalized
quantum nonlinear oscillator driven by position dependent mass Annals of Physics 353 222-237.
9. Barnana Roy and T. Tanaka, 2015. Two-step shape invariance in the framework of N-fold
supersymmetry European Physical Journal Plus 130 25.
10. D. Nath, Barnana Roy, R. Roychoudhury, 2015. PT-symmetric nonlinear optical lattice: Analytical
solutions Chaos, Solitons and Fractals, 81, 91-97.
Banasri Basu
(Selected publications)
1. Tanay Nag, Anirudha Menon and Banasri Basu, 2020. Thermo-electric transport properties of
Floquet multi-Weyl Semimetals. Physical Review B, 102, 014307.
2. Abhik Ghosh and B. Basu, 2019. Universal city size distribution through rank ordering. Physica A:
Statistical Mechanics and its applications, 528121094.
3. Menon, D. Chowdhury and B. Basu, 2018. Photoinduced tunable anomalous Hall and Nernst
effects in tilted Weyl semimetals using Floquet Theory. Physical Review B, 98, 205109.
4. S. Kar and B. Basu, 2018. Photoinduced entanglement in a magnonic Floquet topological
insulator. Physical Review B, 98, 245119.
5. Z. B. Siu, D. Chowdhury, B. Basu, and M. B. A. Jalil, 2017. Spin accumulation in asymmetric
topological insulator thin films in out of plane magnetic fields. Journal of Physics D: Applied
Physics, 50, 325306.
6. Z. B. Siu, D. Chowdhury, M. B. A. Jalil, B. Basu, 2017. Quantum Capacitance of a Topological
Insulator-Ferromagnet Interface. Scientific Reports, 7, 45016 (1-8).
7. P. Bandyopadhyay, B. Basu and D. Chowdhury, 2017. The Geometric phase and fractional orbital
angular momentum states in electron vortex beams. Physical Review A, 95, 013821 (1-6).
8. P. Bandyopadhyay, B. Basu and D. Chowdhury, 2016. Unified Approach towards the Dynamics of
Optical and Electron Vortex Beams. Physical Review Letters, 116, 144801 (1-5).
9. Menon, D. Chowdhury and B. Basu, 2016. Effect of perturbative hexagonal warping on quantum
capacitance in ultra-thin topological insulators. Journal of Physics D: Applied Physics, 49, 135003,
1-9.
10. P. Bandyopadhyay, B. Basu and D. Chowdhury, 2015. Relativistic Electron Vortex Beams in a
Laser Field. Physical Review Letters, 115, 194801, 1-5.
11. S. Chowdhury, B.K. Pal, B. Basu and P. Bandyopadhyay, 2015. Quantum gravity effect in torsion
driven inflation and CP violation. Journal of High Energy Physics, 10 ,194, 1-11.
4 Publications of Physics and earth sciences division
12. D. Chowdhury, B. Basu, and P. Bandyopadhyay, 2015. Electron vortex beams in a magnetic field
and spin filter. Physical Review A, 91, 33812, 1-6.
13. B. Basu, P. Bandyopadhyay and P. Majumdar, 2015. Evolution of entanglement towards
criticality in the XY-model in a quantum phase transition induced by quench. Physical Review A,
92, 22343, 1-7.
14. D. Chowdhury and B. Basu, 2015. Effect of non-uniform exchange field in ferromagnetic
graphene. Annals of Physics, 355, 338-347.
Preeti Parashar
(Selected Publications)
1. Tamal Guha, Mir Alimuddin, and Preeti Parashar, 2020. Thermodynamic advancement in the
causally inseparable occurrence of thermal maps. arXiv: 2003.01464, accepted in Physical
Review A.
2. Mir Alimuddin, Tamal Guha, and Preeti Parashar, 2020. Structure of passive states and its
implication in charging quantum batteries. arXiv: 2003.01470, accepted in Physical Review E.
3. Mir Alimuddin, Tamal Guha, and Preeti Parashar, 2020. Independence of work and entropy for
equal-energetic finite quantum systems: Passive-state energy as an entanglement quantifier.
arXiv: 1912.09780, accepted in Physical Review E.
4. Tamal Guha, Mir Alimuddin, and Preeti Parashar, 2020. No-go results in Quantum
Thermodynamics. Physical Review A 101, 012115.
5. TamalGuha, Mir Alimuddin, and Preeti Parashar, 2019. Allowed and Forbidden Bipartite
Correlations from Thermal States. arXiv: 1904.07643. [Accepted in Phys. Rev. E].
6. Mir Alimuddin, Tamal Guha, and Preeti Parashar, 2019. Bound on ergotropic gap for bipartite
separable states. Phys. Rev. A99, 052320.
7. Swapan Rana, Preeti Parashar, Andreas Winter, and Maciej Lewenstein, 2017. Logarithmic
Coherence: Operational interpretation of `1-norm, Coherence. Phys. Rev. A, 96, 052336.
8. Swapan Rana, Preeti Parashar, and Maciej Lewenstein, 2016. Trace distance measure of
coherence. Phys. Rev. A93, 012110.
Supratik Pal
(Selected Publications)
1. Tony Pinhero and S. Pal, 2020. A New Class of Non-canonical Conformal Attractors for Multifield
Inflation. Journal of Cosmology and Astroparticle Physics 03, 022, 1-22.
2. Arnab Paul, Anish Ghoshal, Arindam Chatterjee and S. Pal, 2019. Inflation, (P) reheating and
Neutrino Anomalies: Production of Sterile Neutrinos with Secret Interactions. European Physical
Journal C 79, 818, 1-15.
Publications of the Physics and Applied Mathematics Unit 5
3. Archita Bhattacharyya, Ujjaini Alam, Kanhaiya Lal Pandey, Subinoy Das and S. Pal, 2019. Are H0
and \sigma_8 tensions generic to present cosmological data? The Astrophysical Journal 876, 143,
1-12.
4. Tony Pinhero and S. Pal, 2019. Realising Mutated Hilltop Inflation in Supergravity. Physics Letters
B 796, 220-224.
5. Abhishek Naskar and S. Pal, 2018. Non-Gaussian Features of Primordial Gravitational Waves.
Physical Review D 98, 083520, 1-6.
6. Debabrata Chandra and S. Pal, 2017. A Proposal for Constraining Initial Vacuum by CMB.
Classical and Quantum Gravity 35, 015008.
7. Sayantan Choudhury and S. Pal, 2015. Primordial non-Gaussian features from DBI Galileon
inflation. European Physical Journal C 75, 241, 1-28.
8. Dhiraj Kumar Hazra, Subhabrata Majumdar, S. Pal, Sudhakar Panda and Anjan A. Sen, 2015. Post-
Planck Dark Energy Constraints. Physical Review D 91, 083005, 1-14.
Dibakar Ghosh
(Selected Publications)
1. S. Rakshit, B. K. Bera, E. M. Bollt, and Dibakar Ghosh, 2020. Intralayer Synchronization in
Evolving Multiplex Hypernetworks: Analytical Approach. SIAM Journal on Applied Dynamical
Systems 19, 918. DOI: https://doi.org/10.1137/18M1224441.
2. S. Rakshit, S. Majhi, and Dibakar Ghosh, 2020. Synchronization in complex networks with long-
range interactions. Journal of Physics A: Mathematical and Theoretical 53, 154002.
DOI: https://doi.org/10.1088/1751-8121/ab78cc.
3. Ray, A. Mishra, Dibakar Ghosh, T. Kapitaniak, S. K. Dana, and C. Hens, 2020. Extreme events in a
network of heterogeneous Josephson junctions. Physical Review E 101, 032209.
DOI: https://doi.org/10.1103/PhysRevE.101.032209.
4. S. Nag Chowdhury, Dibakar Ghosh, and C. Hens, 2020. Effect of repulsive links on frustration in
attractively coupled networks. Physical Review E 101, 022310.
DOI: https://doi.org/10.1103/PhysRevE.101.022310.
5. S. Rakshit, B. K. Bera, and Dibakar Ghosh, 2020. Invariance and stability conditions of interlayer
synchronization manifold. Physical Review E 101, 012308.
DOI: https://doi.org/10.1103/PhysRevE.101.012308.
6. Ray, S. Rakshit, G. K. Basak, S. K. Dana, and Dibakar Ghosh, 2020. Understanding the origin of
extreme events in El Niño southern oscillation. Physical Review E 101, 062210.
DOI: https://doi.org/10.1103/PhysRevE.101.062210.
7. Z. Wang, S. Baruni, F. Parastesh, S. Jafari, Dibakar Ghosh, M. Perc, and I. Hussain, 2020.
Chimeras in an adaptive neuronal network with burst-timing-dependent plasticity.
Neurocomputing 406, 117. DOI: https://doi.org/10.1016/j.neucom.2020.03.083.
8. S. Nag Chowdhury, S. Kundu, M. Duh, M. Perc, and Dibakar Ghosh, 2020. Cooperation on
Interdependent Networks by Means of Migration and Stochastic Imitation. Entropy 22, 485.
DOI: https://doi.org/10.3390/e22040485.
6 Publications of Physics and earth sciences division
9. S. Nag Chowdhury and Dibakar Ghosh, 2020. Hidden attractors: A new chaotic system without
equilibria. The European Physical Journal Special Topics 229, 1299.
DOI: https://doi.org/10.1140/epjst/e2020-900166-7.
10. M. Sayeed Anwar, G. K. Sar, A. Ray, and Dibakar Ghosh, 2020. Behavioral study of a new chaotic
system. The European Physical Journal Special Topics 229, 1343.
DOI: https://doi.org/10.1140/epjst/e2020-900250-6.
11. Ray, S. Kundu, and Dibakar Ghosh, 2020. Aging transition in weighted homogeneous and
heterogeneous networks. Europhysics Letters 128, 40002. DOI: https://doi.org/10.1209/0295-
5075/128/40002.
12. S. Nag Chowdhury, S. Majhi, Dibakar Ghosh, and A. Prasad, 2019. Convergence of chaotic
attractors due to interaction based on closeness. Physics Letters A 383, 125997.
DOI: https://doi.org/10.1016/j.physleta.2019.125997.
13. L. Khaleghi, S. Panahi, S. Nag Chowdhury, S. Bogomolov, Dibakar Ghosh, and S. Jafari, 2019.
Chimera states in a ring of map-based neurons. Physica A: Statistical Mechanics and its
Applications 536, 122596. DOI: https://doi.org/10.1016/j.physa.2019.122596.
14. S. Kundu, S. Majhi, and Dibakar Ghosh, 2019. Chemical synaptic multiplexing enhances
rhythmicity in neuronal networks. Nonlinear Dynamics 98, 1659.
DOI: https://doi.org/10.1007/s11071-019-05277-y.
15. S. Rakshit, B. K. Bera, J. Kurths, and Dibakar Ghosh, 2019. Enhancing synchrony in multiplex
network due to rewiring frequency. Proceedings of the Royal Society A 475, 2019046.
DOI: https://doi.org/10.1098/rspa.2019.0460.
16. S. Nag Chowdhury, S. Majhi, M. Ozer, Dibakar Ghosh, and M. Perc, 2019. Synchronization to
extreme events in moving agents. New Journal of Physics 21, 073048.
DOI: https://doi.org/10.1088/1367-2630/ab2a1f.
17. S. Rakshit, Z. Faghani, F. Parastesh, S. Panahi, S. Jafari, Dibakar Ghosh, and M. Perc, 2019.
Transitions from chimeras to coherence: An analytical approach by means of the coherent
stability function. Physical Review E 100, 012315.
DOI: https://doi.org/10.1103/PhysRevE.100.012315.
18. J. Banerjee, R. K. Layek, S. K. Sasmal, and Dibakar Ghosh, 2019. Delayed evolutionary model for
public goods competition with policing in phenotypically variant bacterial biofilms. Europhysics
Letters 126, 18002. DOI: https://doi.org/10.1209/0295-5075/126/18002.
19. B. K. Bera, S. Rakshit, and Dibakar Ghosh, 2019. Intralayer synchronization in neuronal multiplex
network. The European Physical Journal Special Topics 228, 2441.
DOI: https://doi.org/10.1140/epjst/e2019-900007-8.
20. S. Kundu, S. Majhi, and Dibakar Ghosh 2019 From asynchronous to synchronous chimeras in
ecological multiplex network. The European Physical Journal Special Topics 228, 2429.
DOI: https://doi.org/10.1140/epjst/e2019-900013-1.
21. S. Majhi, B. K. Bera, Dibakar Ghosh, and M. Perc, 2019. Chimeras at the interface of physics and
life sciences. Physics of Life Reviews 28, 142. DOI: https://doi.org/10.1016/j.plrev.2019.04.001.
22. B. K. Bera, S. Rakshit, Dibakar Ghosh, and J. Kurths, 2019. Spike chimera states and firing
regularities in neuronal hypernetworks. CHAOS 29, 053115.
DOI: https://doi.org/10.1063/1.5088833.
23. Ray, S. Rakshit, Dibakar Ghosh, and S. K. Dana, 2019. Intermittent large deviation of chaotic
trajectory in Ikeda map: Signature of extreme events. CHAOS 29, 043131.
DOI: https://doi.org/10.1063/1.5092741.
Publications of the Physics and Applied Mathematics Unit 7
24. P. Kundu, L. Sharma, M. Nandan, Dibakar Ghosh, C. Hens and P. Pal, 2019. Emergent dynamics in
delayed attractive-repulsively coupled networks. CHAOS 29. 013112.
DOI: https://doi.org/10.1063/1.5051535.
25. S. Majhi, T. Kapitaniak and Dibakar Ghosh, 2019. Solitary states in multiplex networks owing to
competing interactions. CHAOS 29, 013108. DOI: https://doi.org/10.1063/1.5061819.
26. S. Kundu, B. K Bera, Dibakar Ghosh and M. Lakshmanan 2019 Chimera patterns in three-
dimensional locally coupled systems. Physical Review E 99, 022204.
DOI: https://doi.org/10.1103/PhysRevE.99.022204.
27. S. Majhi, Dibakar Ghosh, and J. Kurths, 2019. Emergence of synchronization in multiplex
networks of mobile Rossler oscillators. Physical Review E 99, 012308.
DOI: https://doi.org/10.1103/PhysRevE.99.012308.
28. V. V. Makarov, S. Kundu, D. V. Kirsanov, N. S. Frolov, V. A. Maksimenko, Dibakar Ghosh, S. K.
Dana, and A. E. Hramov, 2019. Multiscale interaction promotes chimera states in complex
networks. Communications in Nonlinear Science and Numerical Simulation 71, 118.
DOI: https://doi.org/10.1016/j.cnsns.2018.11.015.
29. S. Nag Chowdhury and Dibakar Ghosh, 2019. Synchronization in dynamic network using
threshold control approach. Europhysics Letters 125, 10011. DOI: https://doi.org/10.1209/0295-
5075/125/10011.
30. S. Majhi, B. K. Bera, Dibakar Ghosh, and M. Perc, 2019. Chimera states in neuronal networks: A
review. Physics of Life Reviews 28, 100. DOI: https://doi.org/10.1016/j.plrev.2018.09.003.
31. S. Kundu, S. Majhi, P. Muruganandam and Dibakar Ghosh, 2018. Diffusion induced spiral wave
chimeras in ecological system. The European Physical Journal Special Topics 227, 983-993.
DOI: https://doi.org/10.1140/epjst/e2018-800011-1.
32. S. Rakshit, A. Ray, B. K. Bera, Dibakar Ghosh, 2018. Synchronization and firing patterns of
coupled Rulkov neuronal map. Nonlinear Dynamics 94 (2), 785-805.
DOI: https://doi.org/10.1007/s11071-018-4394-8.
33. Z. Wei, F. Parastesh, H. Azarnoush, S. Jafari, Dibakar Ghosh, M. Perc, and M. Slavinec, 2018.
Nonstationary chimeras in a neuronal network. Europhysics Letters 123, 48003.
DOI: https://doi.org/10.1209/0295-5075/123/48003.
34. S. Khajanchi, M. Perc, and Dibakar Ghosh, 2018. The influence of time delay in a chaotic cancer
model. CHAOS 28, 103101. DOI: https://doi.org/10.1063/1.5052496.
35. S. Rakshit, B. K. Bera, and Dibakar Ghosh, 2018. Synchronization in a temporal multiplex
neuronal hypernetwork. Physical Review E 98, 032305.
DOI: https://doi.org/10.1103/PhysRevE.98.032305.
36. S. Kundu, S. Majhi, P. Karmakar, Dibakar Ghosh, B. Rakshit, 2018. Augmentation of dynamical
persistence in networks through asymmetric interaction. Europhysics Letters 123, 30001.
DOI: https://doi.org/10.1209/0295-5075/123/30001.
37. S. Majhi, and Dibakar Ghosh, 2018. Alternating chimeras in networks of ephaptically coupled
bursting neurons. CHAOS 28, 083113. DOI: https://doi.org/10.1063/1.5022612.
38. S. Majhi, P. Muruganandam, F. F. Ferreira, Dibakar Ghosh, and S. K. Dana, 2018. Asymmetry in
initial cluster size favors symmetry in a network of oscillators. CHAOS 28, 081101.
DOI: https://doi.org/10.1063/1.5043588.
39. S. Rakshit, A. Ray, B. K. Bera, and Dibakar Ghosh, 2018. Synchronization and firing patterns of
coupled Rulkov neuronal map. Nonlinear Dynamics 94, 785-805.
DOI: https://doi.org/10.1007/s11071-018-4394-8.
8 Publications of Physics and earth sciences division
40. S. Kundu, S. Majhi, and Dibakar Ghosh 2018 Resumption of dynamism in damaged networks of
coupled oscillators. Physical Review E 97, 052313.
DOI: https://doi.org/10.1103/PhysRevE.97.052313.
41. S. Rakshit, B. K. Bera, Dibakar Ghosh, and S. Sinha, 2018. Emergence of synchronization and
regularity in firing patterns in time-varying neural hypernetworks. Physical Review E 97, 052304.
DOI: https://doi.org/10.1103/PhysRevE.97.052304.
42. S. Kundu, S. Majhi, B. K. Bera, Dibakar Ghosh and M. Lakshmanan, 2018. Chimera states in two-
dimensional networks of locally coupled oscillators. Physical Review E 97, 022201.
DOI: https://doi.org/10.1103/PhysRevE.97.022201.
43. S. Kundu, S. Majhi, S. K. Sasmal, Dibakar Ghosh and B. Rakshit, 2017. Survivability of a
metapopulation under local extinctions. Physical Review E 96, 062212.
DOI: https://doi.org/10.1103/PhysRevE.96.062212.
44. S. Rakshit, S. Majhi, B. K. Bera, S. Sinha and Dibakar Ghosh, 2017. Time-varying multiplex
network: Intralayer and interlayer synchronization. Physical Review E 96, 062308.
DOI: https://doi.org/10.1103/PhysRevE.96.062308.
45. M. V. Goremyko, V. A. Maksimenko, V. V. Makarov, Dibakar Ghosh, B. K. Bera, S. K. Dana, and A.
E. Hramov, 2017. Interaction of chimera states in a multilayered network of nonlocally coupled
oscillators. Technical Physics Letters 43, 712. DOI: https://doi.org/10.1134/S1063785017080077.
46. B. K. Bera, S. Majhi, Dibakar Ghosh and M. Perc, 2017. Chimera states: Effects of different
coupling topologies. Europhysics Letters 118, 10001. DOI: https://doi.org/10.1209/0295-
5075/118/10001.
47. S. Majhi and Dibakar Ghosh, 2017. Amplitude death and resurgence of oscillation in network of
mobile oscillators. Europhysics Letters 118, 40002. DOI: https://doi.org/10.1209/0295-
5075/118/40002.
48. S. Majhi, M. Perc and Dibakar Ghosh, 2017. Chimera states in a multilayer network of coupled
and uncoupled neurons. CHAOS 27, 073109. DOI: https://doi.org/10.1063/1.4993836.
49. B. K. Bera, Dibakar Ghosh, P. Parmananda, G.V. Osipov and S. K. Dana, 2017. Coexisting
synchronous and asynchronous states in locally coupled array of oscillators by partial self-
feedback control. CHAOS 27, 073108. DOI: https://doi.org/10.1063/1.4993459.
50. S. Majhi and Dibakar Ghosh, 2017. Synchronization of moving oscillators in three dimensional
spaces. CHAOS 27, 53115. DOI: https://doi.org/10.1063/1.4984026.
51. S. Rakshit, B. K. Bera, M. Perc and Dibakar Ghosh, 2017. Basin stability for chimera states.
Scientific Reports 7, 2412. DOI: https://doi.org/10.1038/s41598-017-02409-5.
52. S. Rakshit, B. K. Bera, S. Majhi, C. Hens and Dibakar Ghosh, 2017. Basin stability measure of
different steady states in coupled oscillators. Scientific Reports 7, 45909.
DOI: https://doi.org/10.1038/srep45909.
53. S. K. Bhowmick, B. K. Bera and Dibakar Ghosh, 2017. Mixed lag synchronization in chaotic
oscillators and experimental observations. Int. J. Dynam. Control 5, 269.
DOI: https://doi.org/10.1007/s40435-015-0197-7.
54. R. Banerjee, B. Bera, Dibakar Ghosh and S.K. Dana, 2017. Enhancing Synchronization in Chaotic
Oscillators by Heterogeneity. The European Physical Journal Special Topics 226, 1893.
DOI: https://doi.org/10.1140/epjst/e2017-70027-9.
55. B. K. Bera, S. Majhi and Dibakar Ghosh, 2017. Resurgence of oscillation in coupled oscillators
under delayed cyclic interaction. European Physical Journal B 90, 132.
DOI: https://doi.org/10.1140/epjb/e2017-70743-2.
Publications of the Physics and Applied Mathematics Unit 9
56. Dibakar Ghosh, S. Khajanchi, S. Mangiarotti, F. Denis, S. K. Dana, C. Letellier, 2017. How tumor
growth can be influenced by delayed interactions between cancer cells and the
microenvironment? Biosystems 158, 17-30.
DOI: https://doi.org/10.1016/j.biosystems.2017.05.001.
57. S. K. Sasmal and Dibakar Ghosh, 2017. Effect of dispersal in two-patch prey–predator system
with positive density dependence growth of preys. Biosystems 151, 44044.
DOI: https://doi.org/10.1016/j.biosystems.2016.11.003.
58. C. Letellier, S. K. Sasmal, C. Draghi, F. Denis and Dibakar Ghosh, 2017. A chemotherapy combine
d with an anti-angiogenic drug applied to a cancer model including angiogenesis. Chaos, Solitons
and Fractals 99, 297-311. DOI: https://doi.org/10.1016/j.chaos.2017.04.013.
59. V. A. Maksimenko, M. V. Goremyko, V. V. Makarov, A. E. Hramov, Dibakar Ghosh, B. K. Bera, and
S. K. Dana, 2017. Excitation and Suppression of Chimeric States in the Multilayer Network of
Oscillators with Nonlocal Coupling. Bulletin of the Russian Academy of Sciences: Physics 81, 110-
113. DOI: https://doi.org/10.3103/S1062873817010166.
60. Mishra, S. Saha, Dibakar Ghosh, G. V. Osipov, S. K. Dana, 2017. Traveling chimera pattern in a
neuronal network under local gap junctional and nonlocal chemical synaptic interactions. Opera
Med Physiol 3, 14. DOI: https://doi.org/10.20388/omp2017.001.0043.
61. S. Majhi, M. Perc and Dibakar Ghosh, 2016. Chimera states in uncoupled neurons induced by a
multilayer structure. Scientific Reports 6, 39033. DOI: https://doi.org/10.1038/srep39033.
62. V. A. Maksimenko, V. V. Makarov, B. K. Bera, Dibakar Ghosh, S. K. Dana, M. V. Goremyko, N. S.
Frolov, A. A. Koronovskii, and A. E. Hramov, 2016. Excitation and suppression of chimera states
by multiplexing. Physical Review E 94, 052205.
DOI: https://doi.org/10.1103/PhysRevE.94.052205.
63. S. Majhi, B. K. Bera, S. K. Bhowmick and Dibakar Ghosh, 2016. Restoration of oscillation in
network of oscillators in presence of direct and indirect interactions. Physics Letters A 380, 3617-
24. DOI: https://doi.org/10.1016/j.physleta.2016.08.036.
64. B. K. Bera and Dibakar Ghosh, 2016. Chimera states in purely local delay-coupled oscillators.
Physical Review E 93, 052223. DOI: https://doi.org/10.1103/PhysRevE.93.052223.
65. B. K. Bera, Dibakar Ghosh and T. Banerjee, 2016. Imperfect traveling chimera states induced by
local synaptic gradient coupling. Physical Review E 94, 012215.
DOI: https://doi.org/10.1103/PhysRevE.94.012215.
66. B. K. Bera, Dibakar Ghosh and M. Lakshmanan, 2016. Chimera states in bursting neurons.
Physical Review E 93, 012205. DOI: https://doi.org/10.1103/PhysRevE.93.012205.
67. S. K. Bhowmick, and Dibakar Ghosh, 2016. Targeting engineering synchronization in chaotic
systems. International Journal of Modern Physics C 27, 1650006.
DOI: https://doi.org/10.1142/S0129183116500066.
68. S. Majhi, B. K. Bera, S. Banerjee and Dibakar Ghosh, 2016. Synchronization of chaotic modulated
time delay networks in presence of noise. The European Physical Journal Special Topics 225, 65-
74. DOI: https://doi.org/10.1140/epjst/e2016-02624-9.
69. B. K. Bera, C. Hens, S. K. Bhowmick, P. Pal and Dibakar Ghosh, 2016. Transition from
homogeneous to inhomogeneous steady states in oscillators under cyclic coupling. Physics
Letters A 380, 130-134. DOI: https://doi.org/10.1016/j.physleta.2015.09.044.
70. B. K. Bera, C. Hens, and Dibakar Ghosh, 2016. Emergence of amplitude death scenario in a
network of oscillators under repulsive delay interaction. Physics Letters A 380, 2366-2373.
DOI: https://doi.org/10.1016/j.physleta.2016.05.028.
10 Publications of Physics and earth sciences division
71. Dibakar Ghosh and Barnana Roy, 2015. Nonlinear dynamics of classical counterpart of the
generalized quantum nonlinear oscillator driven by position dependent mass. Annals of Physics
353 222-237. DOI: https://doi.org/10.1016/j.aop.2014.11.009.
72. S. K. Bhowmick, B. K. Bera and Dibakar Ghosh, 2015. Generalized counter-rotating oscillators:
Mixed synchronization. Communication in Nonlinear Science and Numerical Simulations 22, 692-
701. DOI: https://doi.org/10.1016/j.cnsns.2014.09.024.
73. S. Khajanchi and Dibakar Ghosh, 2015. The combined effects of optimal control in cancer
remission. Applied Mathematics and Computation 271, 375-388.
DOI: https://doi.org/10.1016/j.amc.2015.09.012.
Santanu Maiti
(Selected publications)
1. Joydeep Majhi and Santanu K. Maiti, 2020. Manipulation of circular currents in a coupled ring
system: effects of connectivity and non-uniform disorder. Journal of Physics: Condensed Matter
32 325303.
2. Madhumita Saha, Archak Purkayastha and Santanu K. Maiti, 2020. More current with less
particles due to power-law hopping. Journal of Physics: Condensed Matter 32 025303.
3. Samadrita Dey, Debottam Daw and Santanu K. Maiti, 2020. Flux-driven circular current and
near-zero field magnetic response in an Aubry ring: High-to-low conducting switching action.
Europhysics Letters 129 47002
4. Suvendu Chakraborty and Santanu K. Maiti, 2020. Controlled thermoelectric performance in a
nanojunction: A theoretical approach, Journal of Applied Physics 127 024302
5. Baisakhi Mal, Madhuparna Banerjee and Santanu K. Maiti, 2020. Magnetotransport in fractal
network with loop sub-structures: Anisotropic effect and delocalization. Physics Letters A, 384,
126378
6. Joydeep Majhi, Subir Ghosh and Santanu K. Maiti, 2019. Relativistic anyon beam: Construction
and properties. Physical Review Letters 123 164801
7. Suparna Sarkar and Santanu K. Maiti, 2019. Spin-selective transmission through a single-
stranded magnetic helix. Physical Review B 100 205402
8. Moumita Patra and Santanu K. Maiti, 2019. Bias induced circular spin current: Effects of
environmental dephasing and disorder. Physical Review B 100 165408.
9. Madhumita Saha, Santanu K. Maiti and Archak Purkayastha, 2019. Anomalous transport through
algebraically localized states in one-dimension. Physical Review B 100 174201.
10. Souvik Roy and Santanu K. Maiti, 2019. Tight-binding quantum network with cosine
modulations: Electronic localization and delocalization. European Physical Journal B: Condensed
Matter and Complex Systems 92 267.
11. Judith Helena Ojeda Silva and Santanu K. Maiti, 2019. Thermal properties of ordered and
disordered DNA chains: Efficient energy conversion. ChemPhysChem 20 3346.
12. Sudin Ganguly and Santanu K. Maiti, 2019. Thermoelectricity in graphene nanoribbons:
Structural effects of nanopores. Superlattices and Microstructures 136 106264.
Publications of the Physics and Applied Mathematics Unit 11
13. Madhumita Saha and Santanu K. Maiti, 2019. Particle current rectification in a quasi-periodic
double-stranded ladder. Journal of Physics D: Applied Physics 52 465304.
14. Santanu K. Maiti and Moumita Dey, 2019. New proposal for efficient energy conversion in a
molecular junction with multiple loops. Chemical Physics Letters 731 136601.
15. Moumita Patra, Santanu K. Maiti and Shreekantha Sil, 2019. Engineering magnetoresistance: A
new perspective. Journal of Physics: Condensed Matter 31 355303.
16. Moumita Dey, Salma Farhana Aman and Santanu K. Maiti, 2019. Can a helical molecule be an
efficient functional element to meet the present requirement of thermoelectric efficiency?
Europhysics Letters 126 27003.
17. Moumita Patra and Santanu K. Maiti, 2019. Controlled charge and spin current rectifications in a
spin polarized device. Journal of Magnetism and Magnetic Materials 484 408.
18. Suvendu Chakraborty and Santanu K. Maiti, 2019. Possible routes for efficient thermo-electric
energy conversion in a molecular junction. ChemPhysChem 20 848.
19. Madhuparna Banerjee, Baisakhi Mal and Santanu K. Maiti, 2019. Unconventional localization
phenomena in a spatially non-uniform disordered material. Physica E: Low-Dimensional Systems
and Nanostructures 106 312.
20. Sudin Ganguly, Saurabh Basu and Santanu K. Maiti, 2018. Unconventional charge and spin
dependent transport properties of a graphene nanoribbon with line-disorder. Europhysics
Letters 124 57003.
21. Sudin Ganguly, Saurabh Basu and Santanu K. Maiti, 2018. Controlled engineering of spin
polarized transport properties in a zigzag graphene nanojunction. Europhysics Letters 124
17005.
22. Moumita Patra and Santanu K. Maiti, 2018. Simultaneous spin-based Boolean logic operations
with re-programmable functionality. Europhysics Letters 123 58008.
23. Moumita Patra and Santanu K. Maiti, 2018. All-spin logic operations: Memory device and
Reconfigurable computing. Europhysics Letters 121 38004.
24. Moumita Patra and Santanu K. Maiti, 2018. Charge-based re-programmable logic device with
built-in memory: New era in molecular electronics. Organic Electronics 62 454.
25. Sudin Ganguly, Saurabh Basu and Santanu K. Maiti, 2018.Interface sensitivity on spin transport
through a three-terminal graphene nanoribbon. Superlattices and Microstructures 120 650.
26. Moumita Patra and Santanu K. Maiti, 2018. Analytical study of nano-scale logical operations.
Physica E: Low-Dimensional Systems and Nanostructures 101 151.
27. Moumita Patra and Santanu K. Maiti, 2018. Logical operations using phenyl ring. Physics Letters
A 382 420.
28. Moumita Patra and Santanu K. Maiti, 2017. Modulation of circular current and associated
magnetic field in a molecular junction: A new approach. Scientific Reports 7 43343.
29. Moumita Patra and Santanu K. Maiti, 2017. Unconventional low-field magnetic response of a
diffusive ring with spin-orbit coupling. Physics Letters A 381 221.
30. Moumita Patra and Santanu K. Maiti, 2017. Externally controlled high degree of spin
polarization and spin inversion in a conducting junction: Two new approaches. Scientific Reports
7 14313.
31. Madhumita Saha and Santanu K. Maiti, 2017. High degree of current rectification at nanoscale
level. Physica E: Low-Dimensional Systems and Nanostructures 93 275.
12 Publications of Physics and earth sciences division
32. Santanu K. Maiti, Sreekantha Sil and Arunava Chakraborty, 2017. Phase controlled metal-
insulator transition in multi-leg quasiperiodic optical lattices. Annals of Physics 382 150.
33. Madhumita Saha and Santanu K. Maiti, 2016. Magnetic response of non-interacting and
interacting electrons in a Moebius strip. Superlattices and Microstructures 100 1081.
34. Moumita Patra and Santanu K. Maiti, 2016. Characteristics of persistent spin current
components in a quasi-periodic Fibonacci ring with spin-orbit interactions: Prediction of spin-
orbit coupling and on-site energy. Annals of Physics 375 337.
35. Madhumita Saha and Santanu K. Maiti, 2016. Circulating current in 1D Hubbard rings with long-
range hopping: Comparison between exact diagonalization method and mean-field approach.
Physica E: Low-Dimensional Systems and Nanostructures 84 118.
36. Madhumita Saha and Santanu K. Maiti, 2016. Metal-insulator transition in an one-dimensional
half-filled interacting mesoscopic ring with spinless fermions: Exact results. Physics Letters A 380
1450.
37. Moumita Patra and Santanu K. Maiti, 2016. Anomalous magnetic response of a quasi-periodic
mesoscopic ring in presence of Rashba and Dresselhaus spin-orbit interactions. The European
Physical Journal B-Condensed Matter and Complex Systems 89 88.
38. Srilekha Saha, Santanu K. Maiti and S. N. Karmakar, 2016. Multiple mobility edges in a 1D Aubry
chain with Hubbard interaction in presence of electric field: Controlled electron transport.
Physica E: Low-Dimensional Systems and Nanostructures 83 358.
39. Srilekha Saha, Santanu K. Maiti and S. N. Karmakar, 2016. Circulating persistent current and
induced magnetic field in a fractal network. Physics Letters A 380 1741.
40. Moumita Dey and Santanu K. Maiti, 2016. Selective spin transport through a quantum
heterostructure: Transfer matrix method. International Journal of Modern Physics B 30 1650184.
41. Santanu K. Maiti, 2015. Externally controlled selective spin transfer through a two-terminal
bridge setup. The European Physical Journal B-Condensed Matter and Complex Systems 88 172.
42. Santanu K. Maiti, 2015. Externally controlled local magnetic field in a conducting mesoscopic
ring coupled to a quantum wire. Journal of Applied Physics 117 024306.
43. Srilekha Saha, Santanu K. Maiti and S. N. Karmakar, 2015. Conformation dependent
magnetotransport in a single-handed helical geometry. Physics Letters A 379 2848.
44. Santanu K. Maiti, 2015. Curvature effect on spin polarization in a three-terminal geometry in
presence of Rashba spin-orbit interaction. Physics Letters A 379 361.
Sankar Sarkar
(Selected Publication)
1. Sarkar, S., Dey, S., 2020. Self-preserving characteristics in wall-wake flow downstream of an
isolated bedform. Environ. Fluid Mech., May. DOI: https://doi.org/10.1007/s10652-020-09744-8.
2. Sarkar, S., Dey, S. 2020. Turbulence in wall-wake flow downstream of an isolated dune. M B
Kalinowska et al. (eds), Recent Trends in Environmental Hydraulics, Springer-Verlag, Berlin, 241–
252.
3. Sarkar, S., Ali, S. Z., Dey, S., 2019. Turbulence in wall-wake flow downstream of an isolated dunal
bedform, Water, 11(10), 1975.
Publications of the Physics and Applied Mathematics Unit 13
4. Dey, S., Lodh, R., Sarkar, S. 2018. Turbulence characteristics in wall-wake flows downstream of
wall-mounted and near-wall horizontal cylinders. Environmental Fluid Mechanics, 18(4), 891-
921. DOI: https://doi.org/10.1007/s10652-018-9573-0.
5. Dey, S., Swargiary, D., Sarkar, S., Fang, H., Gaudio, R., 2018. Turbulence features in a wall-wake
flow downstream of a wall-mounted vertical cylinder, European Journal of Mechanics - B/Fluids,
69 (May-June), 46-61. DOI: https://doi.org/10.1016/j.euromechflu.2018.01.003.
6. Dey, S., Swargiary, D., Sarkar, S., Fang, H., Gaudio, R., 2018. Self-similarity in turbulent wall-wake
flow downstream of a wall-mounted vertical cylinder, Journal of Hydraulic Engineering, 144(6),
04018023. DOI: https://doi.org/10.1061/(ASCE)HY.1943-7900.0001457.
7. Radice, A., Sarkar, S., Ballio, F., 2017. Image-based Lagrangian particle tracking in bed-load
experiments. Journal of Visualized Experiments, 125, e55874.
DOI: https://doi.org/10.3791/55874.
8. Sarkar, S., 2016. Measurement of turbulent flow in a narrow open channel, Journal of Hydrology
and Hydromechanics, 64, 2016, 3, 273–280. DOI: https://doi.org/10.1515/johh-2016-0018.
9. Sarkar, S., Papanicolaou, A. (Thanos) N., Dey, S., 2016. Turbulence in a gravel-bed stream with
an array of large gravel obstacles, Journal of Hydraulic Engineering, American Society of Civil
Engineers (ASCE), pp. 04016052-1 − 04016052-16.2.
DOI: https://doi.org/10.1061/(ASCE)HY.1943-7900.0001191.
10. Sarkar, S., 2016. Time-averaged turbulent flow characteristics over a highly spatially
heterogeneous gravel-bed, Acta Geophysica, 64, 1797–1824.
DOI: https://doi.org/10.1515/acgeo-2016-0070.
11. Sarkar, S., Dey, S., 2015. Turbulence anisotropy in flow at an entrainment threshold of sediment,
Journal of Hydraulic Engineering, American Society of Civil Engineers (ASCE), 141, 7, pp.
06015007. DOI: https://doi.org/10.1061/(ASCE)HY.1943-7900.0001026.
12. Sarkar, S., Dey, S., 2015. Turbulent length scales and anisotropy downstream of a wall mounted
sphere. Journal of Hydraulic Research, International Association for Hydraulic Research, 53, 5,
649-658. DOI: https://doi.org/10.1080/00221686.2015.1086830.
13. Sarkar, S., 2015. Sedimentation of floodplains, lakes and reservoirs. In: Handbook of Applied
Hydrology. Second edition by V P Singh, McGraw-Hill Education Professional, USA.
Guruprasad Kar
(Selected Publication)
1. Somshubhro Bandyopadhyay, Manik Banik, Some Sankar Bhattacharya, Sibasish Ghosh,
Guruprasad Kar, Amit Mukherjee, Arup Roy, 2017. Reciprocal Ontological Model Show
Indeterminism Comparable to Quantum Theory. Foundation of Physics, 47, 265–273.
2. Tanmay Singal, Ramij Rahaman, Sibasish Ghosh, and Guruprasad Kar, 2017. Necessary condition
for local distinguishability of maximally entangled states: Beyond orthogonality preservation.
Phys. Rev. A96, 042314.
3. Guruprasad Kar, Sibasish Ghosh, Sujit K. Choudhary and Manik Banik, 2016. Role of
Measurement Incompatibility and Uncertainty in Determining Nonlocality. Mathematics, 4, 3, 1-
13.
14 Publications of Physics and earth sciences division
4. Guruprasad Kar and Manik Banik, 2016. Several foundational and information theoretic
implications of Bell’s theorem. International Journal of Quantum Information, 14, 6, 1640027.
5. Ramij Rahaman and Guruprasad Kar, 2015. GHZ correlation provides secure anonymous veto
protocol. arXiv: 1507.00592.
6. Singal, Tanmay & Rahaman, Ramij & Ghosh, Sibasish and Guruprasad Kar, 2015. Complete
4
4
analysis of perfect local distinguish-ability of ensemble of four generalized Bell states n C x C .
arXiv: 1506.03667.
Publications of the Geological Studies
Unit
Dilip Saha
1. Kale V.S., Saha D., Patranabis-Deb S., Sesha Sai V.V., Tripathy V., Patil-Pillai S., 2020, Cuddapah
Basin, India: A collage of Proterozoic subbasins and terranes. Proc Indian National Science
th
Academy (PINSA) 36 International Geological Congress Special Issue. Group Editor: Banerjee
D.M. DOI: https://doi.org/10.16943/ptinsa/2020/49820.
2. Patranabis-Deb S, Saha D. and Santosh M., 2020, Tracking India Within Precambrian
Supercontinent Cycles. Chapter 3, in Gupta N.S. and Tandon S.K., (ed.) Geodynamics of the
Indian Plate: Evolutionary Perspectives. 105-143. Springer Nature, Switzerland.
DOI: https://doi.org/10.1007/978-3-030-15989-4_3.
3. Patra, A., Saha, D., 2019. Stress regime changes in the Main Boundary Thrust zone, Eastern
Himalaya, decoded from fault-slip analysis. Journal of Structural Geology, 120, 29-47.
DOI: https://doi.org/10.1016/j.jsg.2018.12.010.
4. Patra, A., Saha, D., 2019. Reply to comments by S. K. Acharyya (2019) on “Stress regime changes
in the Main Boundary Thrust zone, Eastern Himalaya, decoded from fault-slip analysis, Patra, A.
and Saha, D., Journal of Structural Geology, v. 120, p.29–47.” Journal of Structural Geology.
DOI: https://doi.org/10.1016/j.jsg.2018.12.010.
5. Banerjee, A., Slowakiewicz, M., Mazumder, T., Khan, S., Patranabis-Deb, S., Tucker, M.E., Saha,
D., 2019. A Palaeoproterozoic dolomite (Vempalle Formation, Cuddapah Basin, India) showing
Phanerozoic-type dolomitisation. Precambrian Research, 328, 9-26.
DOI: https://doi.org/10.1016/j.precamres.2019.04.013.
6. Joy, S., Patranabis-Deb, S., Saha, D., Hielke, J., Maas, R., Sodurland, U., Tappe, S., van der Linde,
G., Banerjee, A., Krishnan, U., 2019. Reply to the comments by Pillai, S. P., George, B. G., Ray, J.
S., and Kale, V. S., (GJ‐19‐0112) on Paper: “Depositional history and provenance of cratonic
“Purana” basins in southern India: A multipronged geochronology approach to the Proterozoic
Kaladgi and Bhima basins” by Joy et al., 2018. Geological Journal, 54, 3170-3173.
DOI: https://doi.org/10.1002/gj.3546.
7. Saha, D., Sain, A., 2019. Multiple convergences along an Archean craton margin: Clues from
Proterozoic ophiolite remnants, granites and granulite domains along the SE margin of India.
Journal of Geodynamics, 129, 44-58. DOI: https://doi.org/10.1016/j.jog.2018.04.004.
8. Joy, S., Patranabis-Deb, S., Saha, D., Hielke, J., Maas, R., Sodurland, U., Tappe, S., van der Linde,
G., Banerjee, A., Krishnan, U., 2018. Depositional history and provenance of cratonic “Purana”
basins in southern India: A multipronged geochronology approach to the Proterozoic Kaladgi and
Bhima basins. Geological Journal, 54, 2957-2977. DOI: https://doi.org/10.1002/gj.3415.
9. Sain, A., Saha, D., 2018. Structure and tectonics of a Mesoproterozoic ophiolite – insight from
Kanigiri Ophiolite with a mélange zone, southern India. Tectonophysics, 744, 177-204.
DOI: https://doi.org/10.1016/j.tecto.2018.06.017.
16 Publications of Physics and earth sciences division
10. Saha, D., Mazumder, R., Kar, R., 2017. Shallow marine to pelagic sediments from a dismembered
ophiolite, Kandra, southern India – Glimpses of ancient subduction zone related sedimentation.
Gondwana Research,49, 21-41. DOI: http://dx.doi.org/10.1016/j.gr.2017.04.032.
11. Sain, A., Saha, D., Joy, S., Hielke, J., Armstrong, R., 2017. New SHRIMP age and microstructures
from a deformed A-type granite, Kanigiri, southern India: Constraining the hiatus between
orogenic closure and post-orogenic rifting. Journal of Geology, 125, 245-259.
DOI: https://doi.org/10.1086/690196.
12. Saha, D., Patranabis-Deb, S., Collins, A., 2016. Proterozoic stratigraphy of southern Indian
cratons and global context. In: Montenari, M. (Ed.), Stratigraphy and Timescales v.1, 1-59.
DOI: http://dx.doi.org/10.1016/bs.sats.2016.10.003.
13. Saha, D., Bhowmik, S.K., Bose, S., Sajeev, K., 2016. Proterozoic tectonics and trans-Indian mobile
belts: A status report. Proceedings Indian National Science Academy, 82, 445-460.
DOI: http://doi.org/10.16943/ptinsa/2016/48460.
14. Tripathy, V., Saha, D., 2015. Inversion of calcite twin data, paleostress reconstruction and
multiphase weak deformation in cratonic interior -- Evidence from the Proterozoic Cuddapah
basin, India. Journal of Structural Geology, 77, 62-81.
DOI: http://dx.doi.org/10.1016/j.jsg.2015.05.009.
15. Saha, D., Sain, A., Nandi, P., Mazumder, R., Kar, R., 2015. Tectonostratigraphic evolution of the
Nellore schist belt, south India, since the Neoarchaean. Geological Society, London, Memoir 43,
Precambrain Basins of India: Stratigraphic and Tectonic context, pp. 269-282.
DOI: http://dx.doi.org/10.1144/M43.18.
Chandan Chakraborty
1. Sarkar, K., Chakraborty, C. and B.S. Mazumder, 2016. Variations of bed elevations due to
turbulence around submerged cylinder in sand beds, Environmental Fluid Mechanics, 16, 659 –
693. DOI: https://doi.org/10.1007/s10652-016-9449-0.
2. Sarkar, K., Chakraborty, C. and Mazumder, B.S., 2015. Spacetime dynamics of bed forms due to
turbulence around submerged bridge piers. Stochastic Environmental Research and Risk
Assessment, Springer, 29, 995‐1017. DOI: https://doi.org/10.1007/s00477-014-0961-9.
Saswati Bandyopadhyay
1. Joyce, W.G. and Bandyopadhyay, S., 2020. A revision of the pelomedusoid turtle
Jainemyspisdurensis from the Late Cretaceous (Maastrichtian) Lameta Formation of India. PeerJ
8: e9330, 1-28. DOI: https://doi.org/10.7717/peerj.9330.
2. Garbin, R. V., Bandyopadhyay, S. and Joyce, W.G., 2020. A taxonomic revision of geoemydid
turtles from the Siwalik-age of India and Pakistan. [Monograph] European Journal of Taxonomy,
652: 1–67. DOI: https://doi.org/10.5852/ejt.2020.652.
3. Bandyop adhyay, S. and Ray, S., 2020. Gondwana Vertebrate Faunas of India: Their Diversity and
Intercontinental Relationships. 36th International Geological Congress, New Delhi; Special Issue:
Geodynamic Evolution of the Indian Subcontinent, Episodes, 43 (1): 438-460.
DOI: https://doi.org/10.18814/epiiugs/2020/020028
Publications of the Geological Studies Unit 17
4. Joyce, W. G. and Bandyopadhyay, S., 2020. Areevaluation of the basal turtle Indochelys
spatulata from the Early–Middle Jurassic (Toarcian–Aalenian) of India, with descriptions of new
material. PeerJ 8: e8542, 1-21. DOI: https://doi.org/10.7717/peerj.8542.
5. Datta, D., Ray, S. and Bandyopadhyay, S., 2019. Cranial morphology of a new phytosaur
(Diapsida, Archosauria) from the Upper Triassic of India: implications for phytosaur phylogeny
and biostratigraphy. Papers in Palaeontology, 1-34. DOI: https://doi.org/10.1002/spp2.1292.
6. Ferreira, G.S., Bandyopadhyay, S., Joyce, W. G., 2018. A taxonomic reassessment of
Piramysauffenbergi, a neglected turtle from the late Miocene of Piram Island, Gujarat, India.
PeerJ 6: e5938, 1-14. DOI: https://doi.org/10.7717/peerj.5938.
7. Sengupta, S., Ezcurra, M. D. and Bandyopadhyay, S., 2017. A new horned and long- necked
herbivorous stem-archosaur from the Middle Triassic of India. Scientific Reports, 7: 8366, 1-9.
DOI: https://doi.org/10.1038/s41598-017-08658-8.
8. Kammerer, C. F., Bandyopadhyay, S. and Ray, S., 2016. A new taxon of cistecephalid dicynodont
from the upper Permian Kundaram Formation of India. Papers in Palaeontology, 2(4), 569-584.
DOI: https://doi.org/10.1002/spp2.1055.
9. Sengupta, S., Sengupta, D. P. and Bandyopadhyay, S., 2016. Stratigraphy of the Upper
Gondwana Formations around Sohagpur, western part of the Satpura Gondwana basin, Central
India. Journal of the Geological Society of India. 87 (5), 503-519.
DOI: https://doi.org/10.1007/s12594-016-0424-7.
10. Kammerer, C. F., Butler, R. J., Bandyopadhyay, S., and Stocker, R., 2015. Relationships of the
Indian phytosaur Parasuchus hislopi Lydekker, 1885. Papers in Palaeontology, 2 (1), 1-23.
DOI: https://doi.org/10.1002/spp2.1022.
Parthasarathi Ghosh
1. Ghosh P., Sengupta D.P., 2020. Geodynamics of Gondwanaland. In: Gupta N., Tandon S. (eds)
Geodynamics of the Indian Plate. 213-232, Springer Geology. Springer, Cham.
DOI: https://doi.org/10.1007/978-3-030-15989-4
2. Banerjee S., Ghosh P., Nagendra R., Bhattacharya B., Desai B., and Srivastava A.K., 2020. Marine
and Fluvial Sedimentation Including Erosion and Sediment Flux in Peninsular Indian Phanerozoic
Basins. Proceedings of Indian National Science Academy, 86, No. 1, 351-363.
DOI: https://doi.org/10.16943/ptinsa/2020/49815.
3. Majumder, D. and Ghosh, P., 2018. Characteristics of the drainage network of the Kosi Megafan,
India and its interaction with the August 2008 flood flow. In Ventra, D. & Clarke, L. E. (eds)
Geology and Geomorphology of Alluvial and Fluvial Fans: Terrestrial and Planetary Perspectives.
Geological Society, London, Special Publications, 440, 307-326.
DOI: https://doi.org/10.1144/SP440.9.
4. Goswami, S., Gierlowski-Kordesch, E., and Ghosh, P., 2018. Sedimentology of the Early Jurassic
limestone beds of the Kota Formation: record of carbonate wetlands in a continental rift basin of
India. Journal of Paleolimnology, 59, 21-38. DOI: https://doi.org/10.1007/s10933-016-9918-y.
5. Dasgupta, S. and Ghosh, P., 2018. Freshwater carbonates within a Late Triassic siliciclastic fluvial
system in a Gondwana rift basin: The Maleri Formation, India. Sedimentary Geology, 373, 254-
271. DOI: https://doi.org/10.1016/j.sedgeo.2018.06.011.
18 Publications of Physics and earth sciences division
6. Dasgupta, S., Ghosh, P., Gierlowski-Kordesch, E., 2017. A Discontinuous Ephemeral Stream
Transporting Mud Aggregates in a Continental Rift Basin: The Late Triassic Maleri Formation,
India. Journal of Sedimentary Research, 87, 838-865. DOI: https://doi.org/10.2110/jsr.2017.47.
7. DeCelles, P. G., Carrapa, B., Gehrels, G.E., Chakraborty, T., Ghosh, P., 2016. Along-strike
continuity of structure, stratigraphy, and kinematic history in the Himalayan thrust belt: The
view from Northeastern India. Tectonics, 35, 2995–3027.
DOI: https://doi.org/10.1002/2016TC004298.
8. Ghosh P., Vasiliev M. V., Ghosh P., Sarkar S., Ghosh S., Yamada K., Ueno Y., Yoshida N., Poulsen
C. J., 2016. Tracking the migration of the Indian continent using the carbonate clumped isotope
technique on Phanerozoic soil carbonates. Scientific Reports, 6, 22187, 1-7.
DOI: https://doi.org/10.1038/srep22187.
9. Ghosh, P., Sinha, S. and Misra, A., 2015. Morphometric properties of the trans-Himalayan river
catchments: Clues towards a relative chronology of orogen-wide drainage integration.
Geomorphology, 233, 127-141. DOI: https://doi.org/10.1016/j.geomorph.2014.10.035.
Dhurjati p. Sengupta
1. Mukherjee, D, Sengupta, D. P. and Rakshit, N., 2020. New biological inputs into the Middle
Triassic capitosaurs from India as deduced from limb bone anatomy and histology. Papers in
Paleontology. 6, (1), 93–142. DOI: https://doi.org/10.1002/spp2.1254.
2. Ghosh P., Sengupta D.P., 2020. Geodynamics of Gondwanaland. In: Gupta N., Tandon S. (eds)
Geodynamics of the Indian Plate. 213-232, Springer Geology. Springer, Cham.
DOI: https://doi.org/10.1007/978-3-030-15989-4.
3. Chakravorti, S., Sengupta, D.P., 2019. Taxonomy, morphometry and morphospace of cranial
bones of Panthasaurus gen. nov.maleriensis from the Late Triassic of India. Journal of Iberian
Geology. 45, pages 317–340. DOI: https://doi.org/10.1007/s41513-018-0083-1.
4. Sengupta S., Sengupta D. P. and Bandyopadhyay S., 2016. Stratigraphy of the Upper Gondwana
Formations around Sohagpur of the Satpura Gondwana basin, Central India. Journal of the
Geological Society of India, 87:503‐519. DOI: https://doi.org/10.1007/s12594-016-0424-7.
Tapan Chakraborty
1. Chakraborty, T., Taral, S., More, S., Bera, S., 2020. Cenozoic Himalayan Foreland basin: an
overview and regional perspective of the evolving sedimentary succession, In: Neal S. Gupta & S.
K. Tandon (Eds.) Geodynamics of the Indian Plate: evolutionary perspective. Springer.
DOI: https://doi.org/10.1007/978-3-030-15989-4_11.
2. Das, R., Uma Shankar, B., Chakraborty, T., Ghosh, K., 2020. Addressing grain-matrix
differentiation in sedimentary rock photomicrographs in the light of brightness perception
modelling, In: J. K. Mandal and S Mukhopadhyay (eds.) Proceedings of the Global AI congress
2019, Advances in intelligence systems and computing 1112, Springer Nature, Singapore.
DOI: https://doi.org/10.1007/978-981-15-2188-1_18.
Publications of the Geological Studies Unit 19
3. Sensarma, S., Shimyaphy, R. V.S., Chakraborty, T., 2020. Coupled microfracturing and chemical
weathering of Precambrian Quartzite in the extremely humid and tectonically active Shillong
plateau, NE India: implications for insitu quartz weathering and quartz silt production. The
Journal of Geology, 128:2, 201-226. DOI: https://doi.org/10.1086/707326.
4. Taral, S., Chakraborty, T., Huyghe, P., van der Beek, P., Vögeli, N., Dupont-Nivet, G., 2019.
Shallow marine to fluvial transition in the Siwalik succession of the Kameng River section,
Arunachal Himalaya and its implication for foreland basin evolution. Journal of Asian Earth
Sciences, 184, 103980. DOI: https://doi.org/10.1016/j.jseaes.2019.103980.
5. Shimyaphy, R. V.S., Sensarma, S. and Chakraborty, T., 2018. Occurrence of in situ thick soil over
resistant quartzite and thin soil over more weatherable granitoid gneiss in central Shillong
Plateau, NE India. Indian Journal of Geosciences, 72, 337-344.
6. Taral, S., Sarkar, S. and Chakraborty, T., 2018. An ichnological model for a deltaic depositional
system: New insights from the Neogene Siwalik Foreland Basin of Darjeeling-Sikkim Himalaya.
Palaeogeography, Palaeoclimatology, Palaeoecology.
DOI: https://doi.org/10.1016/j.palaeo.2018.08.004.
7. Bhattacharya, S., Khan, M.A., More, S., Paruya, D.K., Chakraborty, T., Bera, S. and Dutta, S.,
2018. Amber Embalms Essential Oils: A Rare Preservation of Monoterpenoids In Fossil Resins
from Eastern Himalaya. Palaios, 33, 218–227. DOI: https://doi.org/10.2110/palo.2017.085.
8. Abrahami, R., Huyghe, P., van der Beek, P., Lowick, S., Carcaillet, J., and Chakraborty, T., 2018.
Late Pleistocene - Holocene development of the Tista megafan (West Bengal, India): 10Be
cosmogenic and IRSL age constraints. Quaternary Science Reviews, 185, 69-90.
DOI: https://doi.org/10.1016/j.quascirev.2018.02.001.
9. Taral, S. and Chakraborty, T., 2018. Deltaic coastline of the Siwalik (Neogene) foreland basin:
evidences from the Gish River section, Darjeeling Himalaya. DOI: Geological Journal, 53, 203–
229. DOI: https://doi.org/10.1002/gj.2886.
10. More, S., Rit, R., Khan, M.A., Paruya, D.K., Taral, S., Chakraborty, T. and Bera, S., 2017. First
report of plant remains cf. Sloanea (Elaeocarpaceae) from the Middle Siwalik of Darjeeling sub‐
Himalaya, India and its palaeobiogeographic implications. Journal of the Geological Society of
India, 91, 301-306.
11. Taral, S., Kar, N. and Chakraborty, T., 2017. Wave‐generated structures in the Siwalik rocks of
Tista valley, eastern Himalaya: implication for the regional palaeogeography. Current Science,
113 (5), 889-901. DOI: https://doi.org/10.18520/cs/v113/i05/887-901.
12. Decelles, P.G., Carrapa, B., Gehrels, G.E., Chakraborty, T. and Ghosh, P., 2017. Along‐strike
continuity of structure, stratigraphy, and kinematic history in the Himalayan thrust belt: The
view from Northeastern India. Tectonics, 35, 2995–3027.
DOI: https://doi.org/10.1002/2016TC004298.
13. Neogi, S., Maitra, S., Chakraborty, T. and Ghosh, K., 2017. Change detection of exposed sandbars
around Kaziranga National park. Third International Conference on Research in Computational
Intelligence and Communication Networks (ICRCICN).
DOI: https://doi.org/10.1109/ICRCICN.2017.8234496.
14. More, S., Paruya, D. K., Taral, S., Chakraborty, T., Bera, S., 2016. Depositional Environment of
Mio‐ Pliocene Siwalik Sedimentary Strata from the Darjeeling Himalayan Foothills, India: A
Palynological Approach. PLoS ONE, 11(3), 1‐18, e0150168.
DOI: https://doi.org/10.1371/journal.pone.0150168.
20 Publications of Physics and earth sciences division
Sarbani Patranabis Deb
1. Patranabis-Deb S., and Saha S., 2020, Geochronology, paleomagnetic signature and tectonic
models of cratonic basins of India in the backdrop of Supercontinent amalgamation and
th
fragmentation. 36 International Geological Congress Legacy Volume, “Geodynamic evolution of
the Indian subcontinent”. Guest Editors: Fareeduddin, Pant, N.C., Gupta S., Chakraborty P.P.,
Sensarma S., Prasad G.V.R., Srivastava P, Jain A.K., Rajan R., and Tiwari V.M. Episodes 43, 145-
163. DOI: https://doi.org/10.18814/epiiugs/2020/020009.
2. Kale V.S., Saha D., Patranabis-Deb S., Sesha Sai V.V., Tripathy V., Patil-Pillai S., 2020. Cuddapah
Basin, India: A collage of Proterozoic subbasins and terranes. Proc Indian National Science
th
Academy (PINSA) 36 International Geological Congress Special Issue. Group Editor Banerjee
D.M. DOI: https://doi.org/10.16943/ptinsa/2020/49820.
3. Patranabis-Deb S, Saha D. and Santosh M., 2020. Tracking India Within Precambrian
Supercontinent Cycles. Chapter 3, in Gupta N.S. and Tandon S.K., (ed.) Geodynamics of the
Indian Plate: Evolutionary Perspectives. 105-143. Springer Nature, Switzerland.
DOI: https://doi.org/10.1007/978-3-030-15989-4_3.
4. Mohamed Beraaouz M., Abioui M., Patranabis-Deb S., 2019. Precambrian (Ediacaran)
stromatolites in the Amane-n’Tourhart (Anti-Atlas, Morocco). Int. Jour. Earth Sciences (Geol
Rundsch), 108, 54. 1273-1274. DOI: https://doi.org/10.1007/s00531-019-01690-1.
5. Banerjee A, Słowakiewicz M, Majumder T, Khan S, Syczewski MD, Patranabis-Deb S, Tucker ME,
Saha D, 2019. A Palaeoproterozoic dolomite (Vempalle Formation, Cuddapah Basin, India)
showing Phanerozoic-type dolomitisation. Precambrian Research, 328, 9-26.
DOI: https://doi.org/10.1016/j.precamres.2019.04.013.
6. Joy S., Patranabis-Deb S., Saha D., Jelsma H., Maas R., Soderlund U., Tappe S., van der Linde, G.,
Banerjee A., Krishnan U., 2018. Depositional History and Provenance of Cratonic ‘Purana’ Basins
in Southern India: A Multipronged Geochronology Approach to the Proterozoic Kaladgi and
Bhima Sub-Basins. In Special Issue: Evolution of the India subcontinent. Editors: Santosh M.,
Ganguly S., Rajesh V.J., Hari K.R., ShajiE. Geological Journal, 54, 2957-2979.
DOI: https://doi.org/10.1002/gj.3415.
7. Sojen Joy, Sarbani Patranabis‐Deb, Dilip Saha, Hielke Jelsma, Roland Maas, Ulf Söderlund,
Sebastian Tappe, Gert van der Linde, Amlan Banerjee, and Unni Krishnan, 2019. Reply to the
comments by Pillai, S. P., George, B. G., Ray, J. S., and Kale, V. S., (GJ‐19‐0112) on Paper:
“Depositional history and provenance of cratonic “Purana” basins in southern India: A
multipronged geochronology approach to the Proterozoic Kaladgi and Bhima basins” by Joy et
al., 2018, 54, 3170-3173. DOI: https://doi.org/10.1002/gj.3546.
8. Patranabis-Deb S., Majumder T; Khan S., 2018, Lifestyles of the Palaeoproterozoic stromatolite
builders in the Vempalle Sea, Cuddapah Basin, India. Journal of Asian Earth Sciences, 157, 360-
370. DOI: https://doi.org/10.1016/j.jseaes.2017.08.022.
9. Saha, D., Patranabis-Deb, S., Collins, A.S., 2016. Proterozoic Stratigraphy of Southern Indian
Cratons and Global Context. In: Montenari, M. (Ed.), Stratigraphy & Timescales, Volume 1, 1st
Edition, 1–59..
10. Bhattacharya, P. and Patranabis-Deb, S. 2016. Stratigraphic evolution of the Proterozoic
succession in the western part of the Chattisgarh basin, India. Journal Geological Society of India,
87, 287-307. DOI: https://doi.org/10.1007/s12594-016-0396-7.
11. Patranabis-Deb S., Słowakiewicz M., Tucker M.E, Pancost R.D., Bhattacharya P., 2016.
Carbonates and related facies with vestiges of biomarkers from the Chattisgarh Basin, India:
Publications of the Geological Studies Unit 21
Clues to redox conditions in the Mesoproterozoic Ocean. Gondwana Research, 35, 411-424.
DOI: https://doi.org/10.1016/j.gr.2015.06.007.
12. Collins A.S., Patranabis-Deb S., Alexander E., N. Bertram C.N., Falster G.M., Gore R.J., Mackintosh
J., Dhang P.C., Saha D., Payne J.L., Jourdan F., Backé G, Halverson G.P, Wade B.P., 2015. Detrital
Mineral Age, Radiogenic Isotopic Stratigraphy and Tectonic Significance of the Cuddapah Basin,
India. Gondwana Research, 28, 1294-1309. DOI: https://doi.org/10.1016/j.gr.2014.10.013.
Shiladri Sekhar Das
1. Goswami, P., Das, S. S., Bardhan, S. and Paul, S., 2020. Drilling gastropod predation on the lower
Miocene gastropod assemblages from Kutch, western India: spatiotemporal implications.
Historical Biology, 1-18. DOI: https://doi.org/10.1080/08912963.2020.1716343.
2. Das, S. S., Mondal, S., Saha, S., Bardhan, S., and RanitaSaha., 2019. Family Naticidae
(Gastropoda) from the Upper Jurassic of Kutch, India and a critical reappraisal of taxonomy and
time of origination of the family. Journal of Paleontology, 93, 673-684.
DOI: https://doi.org/10.1017/jpa.2019.3.
3. Das, S. S., Saha, S., Bardhan, S., Mallick, S., and Allmon. W. D., 2018. The oldest turritelline
gastropods: from the Oxfordian (Upper Jurassic) of Kutch, India. Journal of Paleontology, 92,
373–387. DOI: https://doi.org/10.1017/jpa.2017.89.
4. Mallick, S., Bardhan, S., Paul, S., Goswami P. and Das, S. S., 2017. Record of Naticid Predation on
Scaphopods (Mollusca) from the Latest Maastrichtian of Rajahmundry, India. Ichnos, 24, 37-50.
DOI: https://doi.org/10.1080/10420940.2015.1126584.
Amlan Banerjee
1. Sojen Joy, Sarbani Patranabis-Deb, DilipSaha, Hielke Jelsma, Roland Maas, Ulf Soderlund,
Sebastian Tappe, Gert van der Linde, Amlan Banerjee, Unni Krishnan, 2019, Reply to the
comments by Pillai, S. P., George, B. G., Ray, J. S., and Kale, V. S., (GJ‐19‐0112) on Paper:
“Depositional history and provenance of cratonic “Purana” basins in southern India: A
multipronged geochronology approach to the Proterozoic Kaladgi and Bhima basins” by Joy et
al., 2018, Geological Journal (I.F. 1.654). DOI: https://doi.org/10.1002/gj.3546.
2. Amlan Banerjee, MirosławSłowakiewicz, Tuasha Majumder, Sayani Khan, Sarbani Patranabis-
Deb, Maurice E. Tucker, DilipSaha, 2019, A Palaeoproterozoic dolomite (Vempalle Formation,
Cuddapah Basin, India) showing Phanerozoic-type dolomitisation, Precambrian Research (I.F.
3.907), 328, 9-26. DOI: https://doi.org/10.1016/j.precamres.2019.04.013.
3. Sojen Joy, Sarbani Patranabis-Deb, DilipSaha, Hielke Jelsma, Roland Maas, Ulf Soderlund,
Sebastian Tappe, Gert van der Linde, Amlan Banerjee, Unni Krishnan, 2018, Depositional history
and provenance of cratonic ‘Purana’ basins in southern India: A multipronged geochronology
approach to the Proterozoic Kaladgi and Bhima basins, Geological Journal (I.F. 1.654).
DOI: https://doi.org/10.1002/gj.3415
22 Publications of Physics and earth sciences division
4. Banerjee, A., 2016. Estimation of Dolomite Formation: Dolomite Precipitation and
Dolomitization, Journal of the Geological Society of India, 87, 561–572.
DOI: https://doi.org/10.1007/s12594-016-0430-9
5. Howald, T., Person, M., Campbell, A., Lueth, V., Hofstra, A., Sweetkind, D., Gable, C.W.,
Banerjee, A., Luijendijk, E., Crossey, L., Karlstrom, K., Kelley, S., Phillips, F., 2015. Evidence for
Long-Time Scale (> 103 years) Changes in Hydrothermal Activity Induced by Seismic Events.
Geofluids, 15, 252-268. DOI: https://doi.org/10.1111/gfl.12113
6. Banerjee, A., 2015. Groundwater fluoride contamination: A reappraisal. Geoscience Frontiers, 6,
277-284. DOI: https://doi.org/10.1016/j.gsf.2014.03.003.
Publications of the Theoretical and
Applied Sciences Unit
Sanjit Maitra
1. Maitra S, Jyethi D S, 2020. Particulate matter removal by forest cover in Delhi. Arboricultural
Journal: The International Journal of Urban Forestry, 42, 36-49.
https://doi.org/10.1080/03071375.2020.1746541.
2. Maitra S, Ojha R K, Ghosh K, 2020. Impact of Convolutional Neural Network Input Parameters on
Classification Performance. IEEE 4th International Conference on Convergence of Technology, 1-
5. https://doi.org/10.1109/I2CT42659.2018.9058213.
3. Maitra S, Ghosh R, Ghosh K, 2019. Applications of Deep Learning in Medical Imaging. Handbook
of Deep Learning Applications, Springer Book Series: Smart Innovation, Systems, and
Technologies, ISBN 978-3-030-11479-4. https://doi.org/10.1007/978-3-030-11479-4_6.
4. Maitra S, 2018. Analysis of crop condition during monsoon season using multispectral and
polarimetric SAR images. SPIE 10783, 1078324. https://doi.org/10.1117/12.2500154.
5. Neogi S, Maitra S, Chakraborty T, Ghosh K, 2017. Change detection of exposed sandbars around
Kaziranga National Park. IEEE Research in Computational Intelligence and Communication
Networks, 142-146. https://doi.org/10.1109/ICRCICN.2017.8234496.
6. Ghosh R, Ghosh K, Maitra S, 2017. Automatic detection and classification of diabetic retinopathy
stages using CNN. Signal Processing and Integrated Networks (SPIN), 550-554.
https://doi.org/10.1109/SPIN.2017.8050011.
7. Maitra S, Gartley M G, Kerekes J P, 2017. Low Cost Laboratory Based Polarimetric SAR System for
Scattering Analysis. IEEE Antennas and Propagation, 59(2), 130-141.
https://doi.org/10.1109/MAP.2017.2658338.
Darpa S Jyethi
1. Siddiqui Z, Khillare P S, Jyethi D S, Aithani D, Yadav A K, 2020. Pollution characteristics and
human health risk from trace metals in roadside soil and road dust around major urban parks in
Delhi city. Air Quality, Atmosphere & Health, Springer. Accepted on July 6, 2020.
2. Aithani D, Jyethi D S, Siddiqui Z, Yadav A K, Khillare P S, 2020. Source apportionment, pollution
assessment, ecological and, human health risk assessment due to trace metal contaminated
groundwater along urban river floodplain. Groundwater for Sustainable Development. Elsevier.
Accepted on July 5, 2020.
3. Maitra S, Jyethi D S, 2020. Particulate matter removal by forest cover in Delhi. Arboricultural
Journal, The International Journal of Urban Forestry. Taylor and Francis.
https://doi.org/10.1080/03071375.2020.1746541.
24 Publications of Physics and earth sciences division
4. Khillare P S, Sattawan V K, Jyethi D S, 2020. Profile of Polycyclic Aromatic Hydrocarbons in
digested sewage sludge. Environmental Technology, 41, 842-851. Taylor and Francis.
https://doi.org/10.1080/09593330.2018.1512654.
5. Bhakta R, Khillare P S, Jyethi D S, 2019. Atmospheric particulate matter variations and
comparison of two forecasting models for two Indian megacities. Aerosol Science and
Engineering, 3, 54–62, Springer. https://doi.org/10.1007/s41810-019-00041-6.
6. Jyethi D S, 2016. Air quality: global and regional emissions of particulate matter, SOx and NOx,
Plant responses to Air Pollution. In: U. Kulshreshtha and P. Saxena (eds.), Springer Nature, 5-19,
ISBN 978-981-10-1201-3. https://doi.org/10.1007/978-981-10-1201-3_2.
7. Chourasiya S, Khillare P S, Jyethi D S, 2015. Health risk assessment of organochlorine pesticides
exposure through dietary intake of vegetables grown in the periurban sites of Delhi, India.
Environmental Science and Pollution Research, 22, 5793-5806. Springer.
https://doi.org/10.1007/s11356-014-3791-x.
Saurabh Trivedi
1. Nguyen N, Trivedi S, 2020. Transversality of smooth definable maps in O-minimal structures.
Mathematical Proceedings of the Cambridge Philosophical Society, 168(3), 519-533.
https://doi.org/10.1017/S0305004118000920.
2. Nguyen N, Ruas M, Trivedi S, 2020. Classification of Lipschitz simple function germs. Proceedings
of the London Mathematical Society, 121: 51-82. https://doi.org/10.1112/plms.12310.
3. Trivedi S, 2018. Cohomology of flat currents on definable pseudomanifolds. Journal of
Mathematical Analysis and Applications, 468, no. 2, 1098-1107.
https://doi.org/10.1016/j.jmaa.2018.08.056.
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