Truth is what stands the test of experience.
~~~ Albert Einstein ~~~


JOURNAL PUBLICATIONS KUSHAL SHAH
Most important papers marked by (*)

  1. Unifying averaged dynamics of the Fokker-Planck equation for Paul traps
    A. Bhattacharjee, K. Shah and A. Chatterjee, Physics of Plasmas 26, 012302 (2019)

  2. (*) Towards a unified framework for developing ethical and practical Turing tests
    B. Srinivasan and K. Shah, AI & Society 34, 145 (2019)

  3. (*) Vlasov dynamics of periodically driven systems
    S. Banerjee and K. Shah, Physics of Plasmas 25, 042302 (2018)

  4. Plasma dynamics in a dual frequency Paul trap using Tsallis distribution
    V. Saxena and K. Shah, IEEE Trans. Plasma Science 46, 474 (2018)

  5. Analysis and validation of low-frequency noise reduction in MOSFET circuits using variable duty cycle switched biasing
    K. Jainwal, M. Sarkar and K. Shah, IEEE J-EDS 6, 420 (2018)

  6. (*) Equilibration of energy in slow-fast systems
    K. Shah, D. Turaev, V. Gelfreich and V. Rom-Kedar, Proc. Natl. Acad. Sci. USA 114, E10514 (2017)

  7. (*) Identification and Characterization of ARS like sequences as putative origin(s) of replication in human malaria parasite Plasmodium falciparum
    M. Agarwal, K. Bhowmick, K. Shah, A. Krishnamachari and S. K. Dhar, FEBS Journal 284, 2674 (2017)

  8. Time evolution of Tsallis distribution in Paul trap
    V. Saxena and K. Shah, IEEE Trans. Plasma Science 45, 918 (2017)

  9. Low frequency noise reduction using multiple transistors with variable duty cycle switched biasing
    K. Jainwal, K. Shah and M. Sarkar, IEEE J-EDS 3, 481 (2015)

  10. Leaky Fermi accelerators
    K. Shah, V. Gelfreich, V. Rom-Kedar and D. Turaev, Physical Review E 91, 062920 (2015)

  11. (*) Dispersion relation and self-collimation frequency of spoof surface plasmon using tight binding model
    S. Bhattacharya and K. Shah, Journal of Optics 17, 065102 (2015)

  12. Computational prediction of origin of replication in bacterial genomes using correlated entropy measure (CEM)
    H. Parikh, A. Singh, A. Krishnamachari and K. Shah, BioSystems 128, 19 (2015)

  13. Multimodal propagation of the electromagnetic wave on a structured perfect electric conductor (PEC) surface
    S. Bhattacharya and K. Shah, Optics Communications 328, 102 (2014)
    [Audio Slide]

  14. Large-amplitude oscillations in the rectangular Fermi accelerator
    K. Shah, Physical Review E 88, 024902 (2013)

  15. Modified nonlinear evolution of Langmuir waves
    K. Shah, Physics of Plasmas 19, 074502 (2012)

  16. Nucleotide correlation based measure for identifying origin of replication in genomic sequences
    K. Shah and A. Krishnamachari, BioSystems 107,52 (2012)

  17. On the origin of three base periodicity in genomes
    K. Shah and A. Krishnamachari, BioSystems 107, 142 (2012)

  18. (*) Robust exponential acceleration in time-dependent billiards
    V. Gelfreich, V. Rom-Kedar, K. Shah and D. Turaev, Physical Review Letters 106, 074101 (2011)

  19. Energy growth rate in smoothly oscillating billiards
    K. Shah, Physical Review E 83, 046215 (2011)

  20. Asymptotic solution of Fokker-Planck equation for plasma in Paul traps
    K. Shah, Physics of Plasmas 17,054501 (2010)

  21. Plasma response to nonlinear time-periodic electric fields in one dimension
    K. Shah, Physics of Plasmas 17, 112301 (2010)

  22. (*) Exponential energy growth in a Fermi accelerator
    K. Shah, D. Turaev and V. Rom-Kedar, Physical Review E 81, 056205 (2010)

  23. Space charge effects in rf traps: Ponderomotive concept and stroboscopic analysis
    K. Shah and H. S. Ramachandran, Physics of Plasmas 16, 062307 (2009)

  24. Analytic, nonlinearly exact solutions of an rf confined plasma
    K. Shah and H. S. Ramachandran, Physics of Plasmas 15, 062303 (2008)

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