Kim's research is focused on "quasi one-dimensional" cuprates, materials that contain copper and oxygen where the atoms are tightly linked together in straight chains with weak lateral bonds -- like a ladder with steel rails and paper rungs. Because the materials' properties are mainly determinedb by the one-dimensional "rails," this structure allows scientists to simplify their analysis by ignoring the weak "rungs."

"One-dimensional systems are special because we already know a lot about their theoretical behavior," said Kim. "Therefore, these theoretical predictions for one dimensional systems can be tested by studying quasi one-dimensional materials."

Kim wants to know how the electrons in these "quasi one-dimensional" cuprates respond to x-rays -- how the electrons behave when they are excited, or energized, by the light. An electron, he said, is like a ball of negative charge surrounded by an electric field, and also like a bar magnet with a tiny magnetic field. Both fields affect nearby electrons, normally at the same time.

However, in Kim's studies, when an electron in a quasi one-dimensional cuprate absorbs x-ray energy, the fields separate, allowing the electric field to "speed up" and exert force on other electrons before the magnetic field can reach them.

"This response is unique to quasi one-dimensional materials," Kim said.

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