Analysis of the attainable efficiency of a direct-bandgap betavoltaic element

Abstract

Conversion of energy of beta-particles into electric energy in a p-n junction based on direct-bandgap semiconductors, such as GaAs, considering realistic semiconductor system parameters is analyzed. An expression for the collection coefficient, Q, of the electron-hole pairs generated by beta-electrons is derived taking into account the existence of the dead layer. We show that the collection coefficient of beta-electrons emitted by a -source to a GaAs p-n junction is close to 1 in a broad range of electron lifetimes in the junction, ranging from 10-9 to 10-7 s. For the combination /GaAs, Q is relatively large ( 0.4) only for quite long lifetimes (about 10-7 s) and large thicknesses (about 100\,μm) of GaAs p-n junctions. For realistic lifetimes of minority carriers and their diffusion coefficients, the open-circuit voltage realized due to the irradiation of a GaAs p-n junction by beta-particles is obtained. The attainable beta-conversion efficiency η in the case of a /GaAs combination is found to exceed that of the /GaAs combination.