All the cool kids are talking about dark energy and dark matter. Why? Because these are things that current physical models don't predict. The hope is that understanding one or both of these concepts will unveil a new world where everyone gets cookies and is born understanding physical concepts like tensors. OK, maybe not everyone will get a cookie.
But dark matter and energy are not the only things that current physical models don't predict. The Standard Model, which describes the behavior of fundamental particles and forces, has a number of physical constants. These constants are measured, and we know them accurately. But there is no theory that predicts why these constants have the values they do.
What can we do about this? One option is to measure these constants under as many different conditions as possible and test to see if they are, indeed, constant. The focus of this effort has mainly been on change with respect to time. Researchers compare astronomical measurements, made on very distant objects, to lab measurements. To within measurement uncertainty, the fundamental constants have not changed in the last few billion years.
The only way to really check for variations in fundamental constants is to push those uncertainties back by coming up with more sensitive techniques. This is exactly the goal of a group of researchers in the Netherlands. You'll note that I say "goal"—the research is ongoing. Creating new measurement techniques is a long and complicated procedure.
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