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Summary
| Description |
English: The Shockley-Queisser limit for the maximum possible efficiency of a solar cell (black), and the inevitable losses that limit it (other colors). The black height is energy that can be extracted as useful electrical power; the pink height is energy of below-bandgap photons; the green height is energy lost when hot photogenerated electrons and holes relax to the band edges; the blue height is energy lost in the tradeoff between low radiative recombination versus high operating voltage. The curves are all wiggly because of IR absorption bands in the atmosphere: I used the actual AM1.5G solar spectrum data. I cross-checked the black curve with independently-calculated ones and they agree to high accuracy, [1] [2]. The other curves besides the black curve are not published in exactly this form to my knowledge, but it's a straightforward part of the same calculation.
Русский: Предел Шокли — Кейссера максимально возможного КПД солнечного элемента (черный) и неизбежные потери, которые его ограничивают (другие цвета). Высота чёрной зоны — это энергия, которую можно извлечь в виде электроэнергии; розовая — энергия фотонов ниже запрещенной зоны; зеленая высота — это потеря энергии при релаксации горячих фотогенерированных электронов и дырок на краях запрещённой зоны; синяя — это энергия, потерянная в результате компромисса между низкой рекомбинацией с излучением и высоким рабочим напряжением. Все кривые волнистые из-за полос поглощения в атмосфере. |
| Date | |
| Source | Own work |
| Author | Sbyrnes321 |
| Other versions |
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The data-file for this graph is freely available, ask me at [3]. I did the calculation in Mathematica, the plotting in Origin, and the PDF-->SVG conversion in Inkscape. The Mathematica source code is posted on my website, http://sjbyrnes.com/
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 23:11, 17 February 2011 | | 969 × 720 (106 KB) | Sbyrnes321 | {{Information |Description ={{en|1=The Shockley-Queisser limit for the maximum possible efficiency of a solar cell (black), and the inevitable losses that limit it (other colors). The black height is energy that can be extracted as useful electrical po |
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