The current work uses a (2+1) dimensional conformal time fractional Kundu-Mukherjee-Naskar (KMN) model
to investigate optical soliton transmission across an optical fiber that maintains polarization. Three constructive
techniques, namely, the extended power series solution, the new generalized method, and the extended
sinh-Gordon expansion method are utilized to find the exact soliton solutions of this model. The invariant
analysis has been performed on the (2+1) dimensional time fractional KMN model by using the conformal
time fractional derivative. The symmetries obtained using conformal fractional derivative are compared with
the symmetries obtained for integer order KMN model because symmetries using Riemann Liouville fractional
derivative turned out to be trivial. The given system of fractional PDEs has been reduced by using differential
invariants obtained from various linear combinations of vector fields associated with the infinitesimal generator
of symmetry transformations. These reduced systems of equations are then investigated for their exact
solutions
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