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What do you see in these Rorschach-blot-like images? JILA physicists see the once-hidden electronic behavior of semiconductors. The computer plots show how energy intensity (ranging from low in blue to high in red) varies as electronic structures called excitons absorb laser light and emit energy at various frequencies. The pair of similar "butterflies" indicates that an exciton is absorbing and emitting energy in a predictable pattern.https://www.led-professional.com/media/technology_light-generation_method-may-help-optimize-light-emitting-semiconductors_optimizing-20light-20output_big-gif/viewhttps://www.led-professional.com/media/technology_light-generation_method-may-help-optimize-light-emitting-semiconductors_optimizing-20light-20output_big-gif/@@images/image-1200-421696e858fda0c4d328f3ccbd265b07.png
What do you see in these Rorschach-blot-like images? JILA physicists see the once-hidden electronic behavior of semiconductors. The computer plots show how energy intensity (ranging from low in blue to high in red) varies as electronic structures called excitons absorb laser light and emit energy at various frequencies. The pair of similar "butterflies" indicates that an exciton is absorbing and emitting energy in a predictable pattern.