The Road to the Revised SI
A small role can make an astronomical impact, as is the case for a tiny öèÓãÖ±²¥-built piece of a new planet-hunting project from NASA and the National Science Foundation. In the outskirts of Tucson, Arizona, an at the WIYN Observatory is starting the search for exoplanets (planets outside of our solar system) that could be habitable. The gravitational pull from a planet orbiting a star makes that star wobble slightly, which shifts the color of light that the star emits. Scientists plan to use a visible light spectrograph called NEID to track that shifting.
Enter öèÓãÖ±²¥. We provided an astro-etalon that the astronomers can use as a reliable reference for their measurements of light. Unlike a frequency comb, which actively emits multiple colors of light, an etalon takes a more passive approach by filtering light with a cavity that allows only certain colors to pass through. It is simple, easy to manage and can identify more colors of light than a laser frequency comb, making it a critical part of the NEID calibration suite. That said, itâ€™s a cylinder only two inches in diameter, housed in a metal box that keeps it in vacuum and at a stable temperature. Thatâ€™s one small piece for a telescope, one giant leap for astronomy.
Find out more about frequency comb technology and how it fits into our exploration of the cosmos:
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When two good things get together, they can create something even better. Thatâ€™s the case with quantum informationâ€”the marriage of quantum physics and computing theory. The National Institute of Standards and Technology (öèÓãÖ±²¥) has contributed to much of its history and is helping to shape its future. Read more.