Distant Exoplanets Shared by Light from Wobbling Stars

Fri, Apr 3 · 5:38 PM UTC 2 min read

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NIST physicist Gillian Nave adjusts alignment of the light beam that passes from the xenon source at left, through the absorption cell (center, wrapped in brown tape), and into the spectrometer chamber at right.

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Key facts

Astronomers can’t measure such a small effect, but they can measure stars moving at only 1 meter (39 inches) per second
I’ve been coming here for 15 years, doing exactly that,” said celebrated exoplanet hunter Paul Butler of the Carnegie Institution of Washington, creator of the original iodine cell
Doppler spectroscopy is a flexible way of detecting planets,” said NIST physicist Gillian Nave, who manages the FTS operation
At NIST’s FTS, the light from the star is replaced with light from a high-intensity xenon lamp, producing a white-light spectrum without any sharp lines

Summary

Secure.gov websites use HTTPS A lock or https:// means you’ve safely connected to the.gov website. NIST physicist Gillian Nave adjusts alignment of the light beam that passes from the xenon source at left, through the absorption cell (center, wrapped in brown tape), and into the spectrometer chamber at right. Ask most folks what they would need to find planets orbiting distant stars, and few will list a bottle of iodine. Yet that element plays a vital role in the search for extrasolar planets (exoplanets) in the form of devices called “iodine absorption cells”: sealed glass cylinders about the size of a soup can containing a thin gas of iodine molecules.

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