[76] | Arunava Patra, Supratim Sengupta, Ayan Paul, and
Sagar Chakraborty.
Inferring to cooperate: Evolutionary games with Bayesian inferential strategies.
New Journal of Physics 26, 063003, 2024. |
[75] | Suman Chakraborty, Ishita Agarwal, and
Sagar Chakraborty.
Replicator-mutator dynamics of Rock-Paper-Scissors game: Learning through mistakes.
Physical Review E 109, 034404, 2024. |
[74] | Archan Mukhopadhyay, Saikat Sur, Tanay Saha, Shubhadeep Sadhukhan, and
Sagar Chakraborty.
Repeated quantum game as a stochastic game: Effects of the shadow of the future and entanglement.
Physica A 637, 129613, 2024. |
[73] | Samrat Sohel Mondal, Avishuman Ray, and
Sagar Chakraborty.
Hypochaos prevents tragedy of the commons in discrete-time eco-evolutionary game dynamics.
Chaos 34, 023122, 2024. |
[72] | Suman Chakraborty and
Sagar Chakraborty.
Selection-recombination-mutation dynamics: Gradient, limit cycle, and closed invariant curve.
Physical Review E 108, 064404, 2023. |
[71] | Joy Das Bairagya and
Sagar Chakraborty.
Hostility prevents the tragedy of the commons in metapopulation with asymmetric migration: A lesson from queenless ants.
Physical Review E 108, 064401, 2023. |
[70] | Sayak Bhattacharjee, Vikash Kumar Dubey, Archan Mukhopadhyay, and
Sagar Chakraborty.
Periodic orbits in deterministic discrete-time evolutionary game dynamics: An information-theoretic perspective.
Physical Review E 107, 064405, 2023. |
[69] |
Joy Das Bairagya, Samrat Sohel Mondal, Debashish Chowdhury, and Sagar Chakraborty.
Eco-evolutionary games for harvesting self-renewing common resource: effect of growing harvester population. Journal of Physics: Complexity 4, 025002, 2023. |
[68] |
Arunava Patra, Vikash Kumar Dubey, and Sagar Chakraborty.
Coexistence of coordination and anticoordination in nonlinear public goods game. Journal of Physics: Complexity 3, 045006, 2022. |
[67] |
Anurag and Sagar Chakraborty.
Locating order-chaos-order transition in elastic pendulum. Nonlinear Dynamics 110, 37, 2022. |
[66] | Shailendra Kumar Rathor,
Sagar Chakraborty, and Samriddhi Sankar Ray.
Dynamic scaling in rotating turbulence: A shell model study.
Physical Review E 105, L063102, 2022. [LETTER] |
[65] |
Samrat Sohel Mondal, Mayank Pathak, and Sagar Chakraborty.
Reward versus punishment: Averting the tragedy of the commons in eco-evolutionary dynamics. Journal of Physics: Complexity 3, 025005, 2022. |
[64] |
Shubhadeep Sadhukhan, Ashutosh Shukla, and Sagar Chakraborty.
Subduing always defecting mutants by multiplayer reactive strategies: Non-reciprocity versus generosity. Journal of Physics: Complexity 3, 015009, 2022. |
[63] |
Joy Das Bairagya, Samrat Sohel Mondal, Debashish Chowdhury, and Sagar Chakraborty.
Game-environment feedback dynamics in growing population: Effect of finite carrying capacity. Physical Review E 104, 044407, 2021. |
[62] |
Shubhadeep Sadhukhan, Rohitashwa Chattopadhyay, and Sagar Chakraborty.
Amplitude death in coupled replicator map lattice: Averting migration dilemma. Physical Review E 104, 044304, 2021. |
[61] |
Ayan Paul, Jayanta Kumar Bhattacharjee, Akshay Pal, and Sagar Chakraborty.
Emergence of universality in the transmission dynamics of COVID-19. Scientific Reports 11, 18891, 2021. |
[60] |
Anurag, Aritra Das, and Sagar Chakraborty.
Order and chaos around resonant motion in librating spring-mass-spherical pendulum. Nonlinear Dynamics 104, 3407, 2021. |
[59] |
Archan Mukhopadhyay, Suman Chakraborty, and Sagar Chakraborty.
Chaos and coexisting attractors in replicator-mutator maps. Journal of Physics: Complexity 2, 035005, 2021. |
[58] |
Anurag, Basudeb Mondal, Tirth Shah, and Sagar Chakraborty.
Chaos and order in librating quantum planar elastic pendulum. Nonlinear Dynamics 103, 2841, 2021. |
[57] |
Archan Mukhopadhyay and Sagar Chakraborty.
Replicator equations induced by microscopic processes in nonoverlapping population playing bimatrix games. Chaos 31, 023123, 2021. |
[56] |
Shubhadeep Sadhukhan, Rohitashwa Chattopadhyay, and Sagar Chakraborty.
Cooperators overcome migration dilemma through synchronization. Physical Review Research 3, 013009, 2021. |
[55] |
Sandip Saha, Sagar Chakraborty, and Gautam Gangopadhyay.
Suppressing birhythmicity by parametrically modulating nonlinearity in limit cycle oscillators. Physica D 416, 132793, 2021. |
[54] |
Archan Mukhopadhyay and Sagar Chakraborty.
Deciphering chaos in evolutionary games.
Chaos 30, 121104, 2020. [FAST TRACK] |
[53] |
Rohitashwa Chattopadhyay, Shubhadeep Sadhukhan, and Sagar Chakraborty.
Effect of chaotic agent dynamics on coevolution of cooperation and synchronization.
Chaos 30, 113111, 2020. |
[52] |
Shailendra K. Rathor, Manohar K. Sharma, Samriddhi
Sankar Ray, and Sagar Chakraborty.
Bridging inertial and dissipation range statistics
in rotating turbulence.
Physics of Fluids 32, 095104, 2020. |
[51] |
Anupam Ghosh and Sagar Chakraborty.
Comprehending deterministic and stochastic occasional uncoupling induced synchronizations through each other.
The European Physical Journal B 93, 113, 2020. |
[50] |
Rajan Singh, Arnab Sarkar, Chitres Guria, Ryan J. T. Nicholl, Sagar Chakraborty, Kirill Bolotin, and Saikat Ghosh.
Giant tunable mechanical nonlinearity in graphene-silicon nitride hybrid resonator.
Nano Letters 20, 4659, 2020. |
[49] |
Sourabh Mittal, Archan Mukhopadhyay, and Sagar Chakraborty.
Evolutionary dynamics of the delayed replicator-mutator equation:
limit cycle and cooperation. Physical Review E 101, 042410, 2020. |
[48] |
Archan Mukhopadhyay and Sagar Chakraborty.
Periodic orbit can be evolutionarily stable: case study of discrete replicator dynamics. Journal of Theoretical Biology 497, 110288, 2020. |
[47] |
Anurag, Basudeb Mondal, Jayanta Kumar Bhattacharjee, and Sagar Chakraborty.
Understanding the order-chaos-order transition in the planar elastic pendulum. Physica D 402, 132256, 2020. |
[46] |
Najirul Islam, Tanmoy Mondal, Sagar Chakraborty, and Shyamal Biswas.
Revisiting Einstein’s B coefficient and rate equations with Rabi model. Journal of Statistical Mechanics: Theory and Experiment, 113104, 2019. |
[45] |
Manohar K. Sharma, Mahendra K. Verma, and Sagar Chakraborty.
Anisotropic energy transfer in rapidly rotating turbulence. Physics of Fluids 31, 085117, 2019. |
[44] |
Anupam Ghosh, Tirth Shah, and Sagar Chakraborty.
Occasional uncoupling overcomes measure desynchronization. Chaos 28, 123113, 2018. |
[43] |
Manohar K. Sharma, Mahendra K. Verma, and Sagar Chakraborty.
On the energy spectrum of rapidly rotating forced turbulence. Physics of Fluids 30, 115102, 2018. [FEATURED ARTICLE; AIP SCILIGHT: Scilight 2018, 460004 (2018).] |
[42] |
Rohitashwa Chattopadhyay, Tirth Shah, and Sagar Chakraborty.
Finding Hannay angle in dissipative oscillatory systems via conservative perturbation theory. Physical Review E 97, 062209, 2018. |
[41] |
Anupam Ghosh, Prakhar Godara, and Sagar Chakraborty.
Understanding transient uncoupling induced synchronization through
modified dynamic coupling.
Chaos 28, 053112, 2018. |
[40] |
Manohar K. Sharma, Abhishek Kumar, Mahendra K. Verma, and Sagar Chakraborty.
Statistical features of rapidly rotating decaying turbulence: enstrophy and energy spectra, and coherent structures.
Physics of Fluids 30, 045103, 2018. [EDITOR'S PICK] |
[39] |
Varun Pandit, Archan Mukhopadhyay, and Sagar Chakraborty.
Weight of fitness deviation governs strict physical chaos in replicator dynamics.
Chaos 28, 033104, 2018. |
[38] |
Himanshu Gupta, Anya Chaudhuri, Subhadeep Sadhukhan, and Sagar Chakraborty.
Effect of Composition gradient on magnetothermal instability modified by shear and rotation.
Monthly Notices of the Royal Astronomical Society 474, 636, 2018. |
[37] |
Manu Mannattil, Ambrish Pandey, Mahendra K. Verma, and Sagar Chakraborty.
On the applicability of low-dimensional models for convective flow reversals at extreme Prandtl numbers.
The European Physical Journal B 90, 259, 2017. |
[36] |
Rohitashwa Chattopadhyay, and Sagar Chakraborty.
Equivalent linearization finds nonzero frequency corrections beyond first order.
The European Physical Journal B 90, 116, 2017. |
[35] |
Subhadeep Sadhukhan, Himanshu Gupta, and Sagar Chakraborty.
On the Helium fingers in the intracluster medium.
Monthly Notices of the Royal Astronomical Society 469, 2595, 2017. |
[34] |
Manu Mannattil, Himanshu Gupta, and Sagar Chakraborty.
Revisiting evidence of chaos in X-ray light curves: The case of GRS 1915+105.
The Astrophysical Journal 833, 208, 2016. |
[33] |
Malte Schröder, Sagar Chakraborty, Dirk Witthaut, Jan Nagler, and Marc Timme.
Interaction control to synchronize non-synchronizable networks.
Scientific Reports 6, 37142, 2016. |
[32] |
Aditya Tandon, Malte Schröder, Manu Mannattil, Marc Timme, and Sagar Chakraborty .
Synchronizing noisy nonidentical oscillators by transient uncoupling.
Chaos 26, 094817, 2016. |
[31] |
Himanshu Gupta, Shailendra K. Rathor, Martin E. Pessah, and Sagar Chakraborty .
Stability analysis of convection in the intracluster medium.
Physics Letters A 380, 2407, 2016. |
[30] |
Subhadeep Sadhukhan, Surajit Mondal, and Sagar Chakraborty .
Stability of rotating self-gravitating filaments: effects of magnetic field.
Monthly Notices of the Royal Astronomical Society 459, 3059, 2016. |
[29] |
Tirth Shah, Rohitashwa Chattopadhyay, Kedar Vaidya, and Sagar Chakraborty.
Conservative perturbation theory for nonconservative systems. Physical Review E 92, 062927, 2015. [EDITORS' SUGGESTION] |
[28] |
Malte Schröder, Manu Mannattil, Debabrata Dutta, Sagar Chakraborty, and Marc Timme.
Transient Uncoupling Induces Synchronization.
Physical Review Letters 115, 054101, 2015. |
[27] |
Surajit Mondal and Sagar Chakraborty .
Effect of a tide on the parker-jeans instability.
Monthly Notices of the Royal Astronomical Society 450, 1874, 2015. |
[26] |
Himadri S. Samanta, Jayanta K. Bhattacharjee, Arijit Bhattacharyay, and Sagar Chakraborty.
On noise induced Poincaré-Andronov-Hopf bifurcation.
Chaos 24, 043122, 2014. |
[25] |
Martin E. Pessah and Sagar Chakraborty.
The stability of weakly collisional plasmas with thermal and composition gradients.
The Astrophysical Journal 764, 13, 2013. |
[24] |
Sagar Chakraborty and Amartya Sarkar.
Parametrically excited non-linearity in van der pol oscillator:
Resonance, anti-resonance and switch.
Physica D: Nonlinear Phenomena 254, 24, 2013. |
[23] |
Benedicte Mengel Pers, Sandeep Krishna, Sagar Chakraborty , Simone Pigolotti,
Vedran Sekara, Szabolcs Semsey, and Mogens H. Jensen.
Effects of growth and mutation on pattern formation in tissues.
PLoS ONE 7(11), e48772, 2012. |
[22] |
Sagar Chakraborty , Mogens H. Jensen, Sandeep Krishna, Benedicte Mengel Pers,
Simone Pigolotti, Vedran Sekara, and Szabolcs Semsey.
Limit-cycle oscillations and stable patterns in repressor lattices.
Physical Review E 86, 031905, 2012. |
[21] |
Sagar Chakraborty , Uriel Frisch, Walter Pauls, and Samriddhi S. Ray.
Nelkin scaling for the burgers equation and the role of
high-precision calculations.
Physical Review E 85, 015301(R), 2012. [RAPID COMMUNICATIONS] |
[20] |
Amartya Sarkar, Jayanta K. Bhattacharjee, Sagar Chakraborty , and Dhruba Banerjee.
Center or limit cycle: renormalization group as a probe.
The European Physical Journal D 64, 479, 2011. |
[19] |
Arnab Saha, Jayanta K. Bhattacharjee, and Sagar Chakraborty.
Work probability distribution and tossing a biased coin.
Physical Review E 83, 011104, 2011. |
[18] |
Debabrata Dutta and Sagar Chakraborty.
A study on bifurcation diagrams in relation to synchronization in chaotic systems.
Pramana — journal of physics 74, 919, 2010. |
[17] |
Sagar Chakraborty , Uriel Frisch, and Samriddhi S. Ray.
Extended self-similarity works for the burgers equation and why.
Journal of Fluid Mechanics 649, 275, 2010 [FAST TRACK] |
[16] |
Sagar Chakraborty , Morgen H. Jensen, and Amartya Sarkar.
On two-dimensionalization of three-dimensional turbulence in shell
models.
The European Physical Journal B 73, 447, 2010. |
[15] |
Sagar Chakraborty , Mogens H. Jensen, and Bo S. Madsen.
Three-dimensional turbulent relative dispersion by the
gledzer-ohkitani-yamada shell model.
Physical Review E 81, 017301, 2010. |
[14] |
Sagar Chakraborty , Arnab Saha, and Jayanta K. Bhattacharjee.
Large deviation theory for coin tossing and turbulence.
Physical Review E 80, 056302, 2009. |
[13] |
Sagar Chakraborty and Partha Guha.
On dynamics of velocity vector potential in incompressible fluids.
Physics Letters A 373(41), 3764, 2009. |
[12] |
Sagar Chakraborty .
On one-eighth law in unforced two-dimensional turbulence.
Physica D: Nonlinear Phenomena 238(14), 1256, 2009. |
[11] |
Sagar Chakraborty , Arnab Rai Choudhuri, and Piyali Chatterjee.
Why does the Sun's torsional oscillation begin before the sunspot
cycle?
Physical Review Letters 102, 041102, 2009. |
[10] |
Arnab Saha, Sagar Chakraborty , and Jayanta K. Bhattacharjee.
Dominance of rare events in some problems in statistical physics.
Pramana — journal of physics 71, 413, 2008. |
[9] |
Sagar Chakraborty .
On scaling laws in turbulent magnetohydrodynamic
Rayleigh-Benard convection.
Physica D: Nonlinear Phenomena 237(24), 3233, 2008. |
[8] |
Sagar Chakraborty .
Two point third order correlation functions for quasigeostrophic
turbulence: Kolmogorov-Landau approach.
Physics of Fluids 20(7), 075106, 2008. |
[7] |
Sagar Chakraborty and Jayanta K. Bhattacharjee.
Effects of nondenumerable fixed points in finite dynamical systems.
Chaos 18, 013124, 2008. |
[6] |
Sagar Chakraborty and Partha Guha.
On the magnetohydrodynamic load and the magnetohydrodynamic metage.
Physics of Plasmas 15, 012112, 2008. |
[5] |
Jayanta K. Bhattacharjee, Asok K. Malik, and Sagar Chakraborty .
An introduction to non-linear oscillators: a pedagogical review.
Indian Journal of Physics 81(11), 1115, 2007. |
[4] |
Sagar Chakraborty .
On the use of the Kolmogorov-Landau approach in deriving various
correlation functions in two-dimensional incompressible turbulence.
Physics of Fluids 19(8), 085110, 2007. |
[3] |
Sagar Chakraborty .
Knotted streamtubes in incompressible hydrodynamical flow and a
restricted conserved quantity.
Physical Review E 76, 036306, 2007. |
[2] |
Sagar Chakraborty and Jayanta K. Bhattacharjee.
Third-order structure function for rotating three-dimensional
homogeneous turbulent flow.
Physical Review E 76, 036304, 2007. |
[1] |
Sagar Chakraborty .
Signatures of two-dimensionalisation of 3D turbulence in the presence
of rotation.
Europhysics Letters 79(1), 14002, 2007. |