The magnetodynanical super lattice structures in Ti(IV) polymers [HD/sub z/)/sub 2/Ti(OP)/sub 2/]

Abstract

Summary form only given. A resonate enhancement of the conductance by the magnetic field has been observed. The magneto conductance shows pronounced oscillations, which can be correlated with the number of periods and the derivatives with the magnetic, field strength. The coupling of states in periodic structure leads to the formation of bands in Ti(IV) group polymer. (BIS (DITHIZONATE) Ti(IV) isopropanalate [HD/sub z/)/sub 2/Ti(OP)/sub 2/] even in the liquid solution with some organic solvents. The creation of miniband due to the coupling of states among adjacent quantum wells, miniband conduction in superlattices and its magnetodynamic control have been explained. Periodicity seems to be produced during the growth process by alternation between different semiconductors. The one gate terminated in periodic fingers is caused when split gate-like structures on high modulation doped heterostructure on the polymers. The depletion of electrical-carriers beneth the gates along with the width of the conducting channel and the strength of the periodic modulation variation by biasing the two gates independent under magnetodynamical stimulation have been proposed. The observations are not only useful in explaining so called the vertical superlattice, but also the lateral superlattices, when a periodicity is produced by a electrostatic potential superimposed on a two-or one dimensional electrical carrier (electron, hole, exciton, ion).