North Star Closer to Earth Than Thought

Polaris North Star
This long-exposure photo (left) shows how the North Star, Polaris, stays fixed in the night sky as other stars appear to move during the night due to Earth's rotation. At right, a close-up of the multi-star Polaris system. (Image credit: Left image: M. Menefee; Right: N. Carboni; Assembly: D. Majaess)

The famed North Star has been a beacon in the night sky throughout human history, but a new study reveals the star is actually closer to our solar system than previously thought.

Scientists studying the North Star Polaris found that it is about 323 light-years from the sun and Earth, substantially closer than a previous estimate of 434 light-years by a European satellite in the late 1990s. The new distance measurement may help astronomers in the pursuit of several cosmic mysteries, such as the hunt for elusive dark energy, researchers said.

Polaris is what astronomers call a Cepheid variable star, a pulsating star used by scientists to measure distances in space. Astronomers can measure the distance to a Cepheid variable by studying how it changes in brightness over time.

Since Polaris is the nearest Cepheid variable star to our solar system, an accurate distance to the star could serve as a benchmark for measurements of other Cepheids used to determine the scale of the universe.

In the 1990s, the European Space Agency's star-mapping Hipparcos satellite determined the 434 light-year distance to Polaris, while other studies suggested the star could be closer to the sun. One light-year is the distance light travels in a single year, about 6 trillion miles (10 trillion kilometers).

The new study by astronomers in Canada, Ukraine and Belgium confirmed the closer distance using new high-resolution observations of the star's light spectrum. [Top 10 Star Mysteries]

"Polaris presents certain anomalies that have so far defied a straightforward interpretation," said study leader David Turner of Canada's Saint Mary's University in Halifax in a statement. "Our high-resolution spectroscopic observations of Polaris may signal the beginning of a new era in understanding the star."

The research is detailed in the Astrophysical Journal Letters.

Polaris gained its reputation as the North Star due to its location in the night sky, which is aligned with the direction of Earth's axis.

Unlike other stars, which appear to rise and set over the course of a night as the Earth rotates, Polaris remains in a fixed position in the northern sky, making it a valuable navigation beacon. In long-exposure photos, stars in the sky appear to circle Polaris.

Polaris is actually one of at least three stars in a single system. The star is about 4,000 times as bright as the sun.

While Polaris is the North Star today, it won't always remain so. The Earth's axis actually wobbles over centuries in a pattern that astronomers call precession. In the year 14,000, this precession will aim the Earth's axis closer to the bright star Vega than Polaris.

This story was provided by SPACE.com, a sister site to Live Science. You can follow SPACE.com Managing Editor Tariq Malik on Twitter @tariqjmalikFollow SPACE.com for the latest in space science and exploration news on Twitter @Spacedotcom and on Facebook.

Tariq Malik
Space.com Editor-in-chief

Tariq is the editor-in-chief of Live Science's sister site Space.com. He joined the team in 2001 as a staff writer, and later editor, focusing on human spaceflight, exploration and space science. Before joining Space.com, Tariq was a staff reporter for The Los Angeles Times, covering education and city beats in La Habra, Fullerton and Huntington Beach. He is also an Eagle Scout (yes, he has the Space Exploration merit badge) and went to Space Camp four times. He has journalism degrees from the University of Southern California and New York University.