@article{Emetere_Nikouravan_2014, title={Femtosecond Spin Dynamics Mechanism In Graphenes: The Bloch NMR-Schrödinger Probe}, volume={4}, url={https://fundamentaljournals.org/index.php/ijfps/article/view/167}, DOI={10.14331/ijfps.2014.330073}, abstractNote={<p>The mechanism of the femtosecond spin dynamics is still not properly understood. The remodeled Bloch-Schrödinger equation was incorporated into the Hamiltonian. The mechanism of the femtosecond dynamics was investigated under three quantum states. The spin relaxation mechanism operated in a single continuous time scale (&gt;70ps) which was in variance with known postulate. The transient reflectivity was measured to be within an angular range of 18.6o to 90.0o at a pulse range of 1MHz to 6.5 MHz. Beyond the pulse intensity of -2.5, the system elapsed into a quasi-equilibrium state which explains the independence of the magnetic moment on the pulse intensity. Different possibilities of the femtosecond spin dynamics were worked out for future study.</p>}, number={4}, journal={International Journal of Fundamental Physical Sciences}, author={Emetere, Moses E. and Nikouravan, Bijan}, year={2014}, month={Dec.}, pages={105-110} }