Experiment with speeding ions verifies relativistic time dilation to new level of

first_img How to test the twin paradox without using a spaceship Explore further © 2014 Phys.org Citation: Experiment with speeding ions verifies relativistic time dilation to new level of precision (2014, September 19) retrieved 18 August 2019 from https://phys.org/news/2014-09-ions-relativistic-dilation-precision.html Journal information: Physical Review Letters When Einstein came up with his theories on special relativity, the world was introduced to the idea of measuring time dilation—where an astronaut would age at a different rate than those left behind on Earth—due to the speed of light being a constant. Relativistic time dilation comes from the Lorentz invariance, which says that no matter where in the universe an object is, or at what speed it might be traveling, the rules remain the same. Since Einstein’s time, scientists have conducted many experiments to prove the theory true—some by using natural objects such as the movement of the Earth in relation to other celestial bodies—others by conducting experiments in the lab. Such experiments have proven successful and today, the idea of measuring time dilation is more about precision than adding proof that the theory is correct. In this latest effort, the team working in Germany caused ions to move very fast using an accelerator, then fired lasers in opposite directions to look for and measure the relativistic Doppler shift as it occurred. As part of the experiment, the researchers used a new technique to keep the relative velocity of all the ions very low, and another involving optical-optical double resonance spectroscopy to detect very small changes in brightness. The experiment allowed for measuring the shift in laser frequencies relative to what the transition frequencies would be for ions that had not been accelerated. By combining the two frequency shifts, uncertainties could be eliminated making it possible to validate time dilation predictions to an order of precision much higher than previous limits. It also demonstrated that it’s possible to improve time dilation measurement precision in a lab, which means that scientists no longer have to rely on celestial bodies, which tend to come along with assumptions that may or may not be based on actual facts.last_img read more