V. K. Mathur scite author profile

The bleaching of thermoluminescence (TL) yield to a residual value by light is explained, at least in some cases, to be due to an equilibrium between excitation and de-excitation by the illuminating light. Kinetic differential equations are given governing the process for the simple case of a single trapping state for electrons and a single variety of hole recombination centre. The equations are solved numerically for chosen sets of the relevant parameters starting either from empty traps and centres or from highly populated ones. In agreement with experimental results, the numerical computation predicts that after a long enough illumination the process of filling of the traps converges to the same equilibrium value as that produced by bleaching. It is also found that the equilibrium value is independent of the light intensity, though, of course, this equilibrium is approached faster with more intense light. The computed dependencies of the filling of trapping states as a function of illumination time are shown. The final equilibrium value for the filling of trapping states can also be evaluated analytically for any set of given parameters; these compare very favourably with the calculated results. The change of the results with the variation of the relevant parameters is discussed.

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V. K. Mathur

Evidence of a purely electronic two-dimensional lattice at the interface of TMD/Bi₂Se₃ heterostructures

REDO-random excitation and deterministic observation-first commercial experiment

Competition between excitation and bleaching of thermoluminescence

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V. K. Mathur

Evidence of a purely electronic two-dimensional lattice at the interface of TMD/Bi2Se3 heterostructures

REDO-random excitation and deterministic observation-first commercial experiment

Competition between excitation and bleaching of thermoluminescence

Contact Info

Product

Resources

About

Evidence of a purely electronic two-dimensional lattice at the interface of TMD/Bi₂Se₃ heterostructures