Tuning the dynamics of Bound Magnetic Polaron in asymmetric Cd1-x1Mnx1Te/Cd1-x2Mnx2Te Semimagnetic Concentric Double Quantum Rings: Through magnetic ion concentration and magnetic field

Rigorous analysis on the formation of Bound Magnetic Polaron (BMP) in Cd1-x1Mnx1Te/Cd1-x2Mnx2Te Semimagnetic Concentric Double Quantum Ring (SCDQR) for various magnetic field and ring dimensions has been made by estimating Spin Polaronic Shift (SPS) using variational technique. The concentration of Mn2+ has been varied in both the ring and barrier material to estimate the shift in the BMP formation from the inner ring to outer ring with respect to the distribution of Mn2+ ions and impurity location. It is found that the SPS of Inner Ring Centered Donor (IRD) and Outer Ring Centered Donor (ORD) are opposite to each other at lower concentrations. Strengthening the magnetic field and increasing the concentration of magnetic ions increases the SPS because of the large magnetic ordering. Thus the concentration of magnetic ions and magnetic field is of paramount importance in determining the BMP formation and its usage in devices. •Exchange interaction between magnetic ions and electron provides affect the distribution of ions.•Spin system can be controlled by this interaction.•Concentration of magnetic ions manipulate the spin phenomena.•Potential profile of heterostructure can be tuned by tuning the concentration of magnetic ions.•DMS heterostructures containing manganese ions are very attractive for optical spectroscopy.