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Muhammad Asif Khan

Ph. D. Scholar

Muhammad Asif Khan

Ph. D. Scholar

Research Area: Dynamical system
About Me

I am a self-motivated and self-disciplined individual with a keen interest in multidisciplinary fields, including Mathematical Biology, Mathematical Chemistry, and Ecology. I completed my M.Phil in Mathematics in 2016 from the University of Poonch Rawalakot (UPR), AJK, Pakistan. My research focused on the 'Global Stability Analysis of Some Systems of Exponential Difference Equations.' Following the completion of my degree, I joined the University of Poonch Rawalakot as a Lecturer in Mathematics. Currently, I am pursuing a Ph.D. in Mathematics at UPR, AJK, Pakistan. My current research interests encompass stability analysis, bifurcation analysis, and chaos control in discrete-time systems. In terms of my research achievements, during my professional experience (November 2019 to Present), I have authored approximately 15 research articles published in reputable international journals. According to ResearchGate (https://www.researchgate.net/profile/Muhammad-Asif-Khan-6), my Research Interest Score is 260. Furthermore, my h-index, as calculated by ResearchGate, is 6

Degree Major University Start Date End Date
Ph. D. Scholar Mathematics University of Poonch Rawalakot November 2022 November 2025
Mphil Mathematics University of Poonch Rawalakot December 2014 December 2016
Designation Organization Duration
Lecturer University of Poonch Rawalakot November 2019 - July 2024
Title Description Sponsoring Agency Amount Year
Designation Department Organization From Date To Date
Lecturer Mathematics University of Poonch Rawalakot November, 2019
Description Year DOI
M. A. Khan, Q. Din Codimension-One and Codimension-Two Bifurcations of a Fractional-Order Cubic Autocatalator Chemical Reaction System MATCH Communications in Mathematical and in Computer Chemistry, In Press 2023 DOI: 10.46793/match.91-2.415K
Salman Khan, Maria Samreen, Muhammad Asif Khan, Manuel De la Sen A Dynamically Consistent Nonstandard Difference Scheme for a Discrete-Time Immunogenic Tumors Model July 2022,Entropy 24(7) 2022 10.3390/e24070949
Q Din M S Shabbir, M A Khan A Cubic Autocatalator Chemical Reaction Model with Limit Cycle Analysis and Consistency Preserving Discretization January 2022 MATCH Communications in Mathematical and in Computer Chemistry 87(2):441-462 2022 10.46793/match.87-2.441D
Muhammad Sajjad Shabbir, Qamar Din, Khalil Ahmad, Muhammad Asif Khan Stability, bifurcation, and chaos control of a novel discrete-time model involving Allee effect and cannibalism July 2020 Advances in Difference Equations 2020(1):379 2020 10.1186/s13662-020-02838-z
Salman Khan, Qamar Din, Maria Habib, Muhammad Asif Khan Stability analysis of a system of second order rational difference equations June 2020 2020 nill
Muhammad Sajjad Shabbir, Qamar Din, Muhammad Safeer Khan, Muhammad Asif Khan, Khalil Ahmad A dynamically consistent nonstandard finite difference scheme for a predator–prey model Advances in Difference Equations 2019(1):381 2019 10.1186/s13662-019-2319-6
Muhammad Asif Khan, Muhammad Sajjad Shabbir, Qamar Din, Khalil Ahmad Chaotic behavior of harvesting Leslie-Gower predator-prey model September 2019 2019 nill
Salman Khan, Muhammad Asif Khan, Muhammad Sajjad Shabbir, Qamar Din Stability, bifurcation and chaos control in a discrete-time prey-predator model with Holling type-II response August 2019 2019 nill
Qamar Din, Muhammad Sajjad Shabbir, Muhammad Asif Khan, Khalil Ahmad Bifurcation analysis and chaos control for a plant-herbivore model with weak predator functional response Journal of Biological Dynamics 13(1):481-501 2019 10.1080/17513758.2019.1638976
Qamar Din, Muhammad Asif Khan Period-doubling bifurcation and chaos control in a discrete-time mosquito model December 2017 2017 nill
Qamar Din, Muhammad Asif Khan Neimark-Sacker bifurcation and chaos control in a modified Nicholson-Bailey model March 2017 2017 DOI: 10.17114/j.aua.2017.49.08
Qamar Din, Muhammad Asif Khan Global stability of a system of exponential difference equations May 2016 2016 nill