Tuning the electron motion is the remarkable subject of the recent studies on the
nanostructures. Particularly in last decade, the studies on the twisted light (orbital angular
momentum (OAM) carrying light) and circularly polarized light (spin angular momentum
(SAM) carrying light) show that, these structured light beams bring great advantages for the
manipulation of electron motion in the quantum structures [1,2,3]. An electron moving in a
nanostructure is able to gain a net circulation as a result of SAM or OAM transferring from the
light to the electron. And the direction of this circulation can also be tuned by the structured
light parameters. For this study, the light parameters are beam waist (0.03 a.u.), the frequency
(variable), pulse duration(0.03 a.u.), topological charge (+1).
The aim of this study is to investigate the magnetic field and current density induced by the
twisted light and circularly polarized light in ring shape Mg-Porphyrin molecular cluster. We
investigated Mg-porphyrin due to its aromatic structure and due to the fact that it is well known
molecule. Through the calculations, electronic structure of the Mg-Porphyrin is obtained from
Gaussian 09 program. We used Time Dependent Perturbation Theory to obtain the interaction
term between Mg-Porphyrin and structured beams. The results show that SAM and OAM
carrying light beam induces magnetic field and current in Mg-porphyrin and it is possible to
control the magnitude and the direction of this magnetic field by changing the frequency of
light and increasing OAM of the light.
Other ID | JA35CY35TE |
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Journal Section | Articles |
Authors | |
Publication Date | August 1, 2016 |
Submission Date | August 1, 2016 |
Published in Issue | Year 2016 Volume: 12 Issue: 2 |