NIEL Dose Dependence in GaAs Solar Cell

Baur et al. (2014) studied the reduction of solar-cells' maximum power resulting from irradiations with electrons and protons in both GaAs single junction and GaInP/GaAs/Ge triple junction solar cells. The results obtained by them indicate how (e.g., see Chapter 11 in [Leroy and Rancoita (2016)]) :

i) the dominant radiation damaging mechanism is due to atomic displacements,

ii) the relative maximum power degradation is almost independent of the type of incoming particle, i.e.,

iii) to a first approximation, the fitted semi-empirical function expressing the decrease of maximum power depends only on the absorbed NIEL dose, and

iv) the actual displacement threshold energy value (Ed =21 eV) accounts for annealing treatments, mostly due to self-annealing induced effects.

Thus, for a given type of solar cell, a unique maximum power degradation curve can be determined as a function of the absorbed NIEL dose. The latter expression allows one to predict the performance of those solar cells in space radiation environment. In [Baur et al. (2014)], the absorbed NIEL dose in units of MeV/g - imparted by particles with kinetic energy E - was obtained (e.g., see Eq. 4.150 at page 432 in [Leroy and Rancoita (2011)] (and Chapter 7 in [Leroy and Rancoita (2016)]) as:

where Φ is the fluence in cm-2 of traversing particles (electrons or protons in the current investigations) and is the corresponding displacement mass-stopping power of the medium.

 

 

References

 

C. Baur, M. Gervasi, P. Nieminen, S. Pensotti, P.G. Rancoita, M. Tacconi, (2014), NIEL dose dependence for solar cells irradiated with electrons and protons, Proc. of the 14th ICATPP, September 23--27 2013, Villa Olmo, Como, Italy, S. Giani, C. Leroy, L. Price, P.G. Rancoita and R. Ruchti, Editors, World Scientific, Singapore, 698-713; ISBN: 978-981-4603-15-7; http://www.worldscientific.com/doi/pdf/10.1142/9789814603164_0111; http://arxiv.org/abs/1312.0402

 

 

C. Leroy and P.G. Rancoita (2011),  Principles of Radiation Interaction in Matter and Detection - 3rd Edition -,World Scientific, Singapore, ISBN-978-981-4360-51-7; http://www.worldscientific.com/worldscibooks/10.1142/8200 .

 

 

 

9167.coverC. Leroy and P.G. Rancoita (2016), Principles of Radiation Interaction in Matter and Detection - 4th Edition -, World Scientific. Singapore, ISBN-978-981-4603-18-8 (printed); ISBN.978-981-4603-19-5 (ebook). http://www.worldscientific.com/worldscibooks/10.1142/9167; it is also partially accessible via google books.

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