Add to ORKGExperimental results on lithium-containing solar cells point toward the lithium donor density gradient dN sub L/dw as being the crucial parameter in the prediction of cell behavior after irradiation by electrons. Recovery measurements on a large number of oxygen-rich and oxygen-lean lithium cells have confirmed that cell recovery speed is directly proportional to the value of the lithium gradient for electron fluences. Gradient measurements have also been correlated with lithium diffusion schedules. Results have shown that long diffusion times (25 h) with a paint-on source result in large cell-to-cell variations in gradient, probably due to a loss of the lithium source with time
Fabrication techniques to improve initial efficiency and radiation tolerance of radiation hardened l...
Lithium doped p-n solar cells meet the basic requirements for space use. The efficiencies of the Lop...
The results of an experimental evaluation of the real-time degradation characteristics of lithium-di...
Lithium donor density gradient measurements for prediction of lithium cell behavior after electron i...
Several groups of lithium-doped solar cells have been evaluated under 1-MeV electron irradiation. Ma...
Effect of lithium on spontaneous annealing of radiation damage in silicon solar cell
This report continues studies on cells made with low temperature (<400degC) single-cycle, lithium di...
Various spectral response studies are reported that assess lithium doping effects on the recovery pr...
Lithium doped silicon solar cells having dimensions as large as 12 sq cm are now possible, due to si...
Lithium action effects on spontaneous annealing of radiation damage in bulk silicon and silicon sola...
Interaction of lithium with defects induced in silicon solar cells by one MeV electron bombardmen
Effects of radiation on efficiency of lithium doped solar cells in electrical space power syste
The effort reported here represents data of lithium properties in bulk-silicon samples before and af...
Recovery properties of lithium containing p-n silicon solar cells after radiation damag
Evidence has been presented that a lithium-diffused crucible-grown silicon solar cell can be made wi...
Fabrication techniques to improve initial efficiency and radiation tolerance of radiation hardened l...
Lithium doped p-n solar cells meet the basic requirements for space use. The efficiencies of the Lop...
The results of an experimental evaluation of the real-time degradation characteristics of lithium-di...
Lithium donor density gradient measurements for prediction of lithium cell behavior after electron i...
Several groups of lithium-doped solar cells have been evaluated under 1-MeV electron irradiation. Ma...
Effect of lithium on spontaneous annealing of radiation damage in silicon solar cell
This report continues studies on cells made with low temperature (<400degC) single-cycle, lithium di...
Various spectral response studies are reported that assess lithium doping effects on the recovery pr...
Lithium doped silicon solar cells having dimensions as large as 12 sq cm are now possible, due to si...
Lithium action effects on spontaneous annealing of radiation damage in bulk silicon and silicon sola...
Interaction of lithium with defects induced in silicon solar cells by one MeV electron bombardmen
Effects of radiation on efficiency of lithium doped solar cells in electrical space power syste
The effort reported here represents data of lithium properties in bulk-silicon samples before and af...
Recovery properties of lithium containing p-n silicon solar cells after radiation damag
Evidence has been presented that a lithium-diffused crucible-grown silicon solar cell can be made wi...
Fabrication techniques to improve initial efficiency and radiation tolerance of radiation hardened l...
Lithium doped p-n solar cells meet the basic requirements for space use. The efficiencies of the Lop...
The results of an experimental evaluation of the real-time degradation characteristics of lithium-di...