Scientists have solved a decades-old mystery about how auroras form in the sky


Aurora Borealis The aurora borealis in the sky near Rovaniemi in Lapland, Finland, October 7, 2018.

Alexander Kuznetsov/Reuters

  • Scientists have confirmed for the first time how the northern lights form in the sky.
  • Electromagnetic waves transfer energy to electrons, which then hitch a ride toward Earth.
  • The electrons eventually collide with atoms and molecules in a brilliant light show - the aurora.
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For years, scientists hadn't been able to confirm how the northern lights cast their spectral glow across the sky.

But they'd long held a theory. First, eruptions on the sun release a stream of charged particles called solar wind. Those particles interact with Earth's magnetosphere - the region around the planet controlled by its magnetic field. In the process, the field launches powerful electromagnetic waves in the direction of Earth's surface.

Electrons then hitch a ride on these waves and surf their way toward Earth's upper atmosphere. Once there, they collide with atoms and molecules in the brilliant light show known as the aurora.

But scientists struggled to prove this theory for decades. The distances of space involved are far too vast to recreate inside a lab, and spacecraft technology only enables researchers to measure electrons and electromagnetic waves separately at different altitudes.

Recently, however, scientists managed to simulate the conditions that produce an aurora inside a vacuum chamber. In a new study, they reported that the predominant theory is indeed correct. Electromagnetic waves called Alfvén waves transfer energy to electrons, giving the particles an accelerated push toward Earth. Electrons can then surf the waves, ultimately reaching speeds of up to 45 million miles per hour.

"The idea that these waves can energize the electrons that create the aurora goes back more than four decades, but this is the first time we've been able to confirm definitively that it works," Craig Kletzing, a physics professor at the University of Iowa who co-authored the study, said in a statement.

aurora borealis study A model shows how auroras light up the sky.

Austin Montelius/University of Iowa

A giant vacuum chamber to simulate 'electron surfing'

Russian physicist Lev Landau first proposed the idea that electrons gain speed by surfing electromagnetic waves - a process now known as Landau damping - in 1946. Kletzing set out to test that theory roughly two decades ago, but before that could happen, scientists had to recreate the conditions of Earth's magnetosphere.

Their solution was the Large Plasma Device at the University of California, Los Angeles - a nearly 66-foot-long vacuum chamber that produces enough plasma (the ionized gas that makes up much of our universe) to support Alfvén waves.

"They thought it should take a few years," Gregory Howes, an associate professor at the University of Iowa, told Insider. "Well, it turned out it was a lot harder problem to do in the laboratory than was initially anticipated."

After launching the Alfvén waves down the chamber, the researchers had to locate a small group of electrons (less than 1 in 1,000) that moved at roughly the same speed as the waves - a needle in a haystack. That would be the indicator that electrons were gaining speed by riding the waves.

"This had never been proven directly in the laboratory that this actually worked," Howes said. "So being able to show in a real plasma that this theoretical idea actually comes to pass was really the major challenge."

Eventually, the simulation showed - and mathematical models confirmed - that this process of electron surfing results in brilliant light shows on Earth.

"It solves the key piece of the puzzle that was missing to understand what are called discrete auroral arcs," Howes said. "Those are the shimmering curtains of light that you think of when you think of aurora."

Large+Plasma+Device+photo+credit+Basic+Plasma+Science+Facility,+UCLA The Large Plasma Device at UCLA’s Basic Plasma Science Facility.

Basic Plasma Science Facility/UCLA

Auroras don't form until the electrons are close to Earth

The researchers stopped short of actually recreating the glowing spectacle of the northern lights, though. That's because the phenomenon occurs at a much lower altitude than Alfvén waves, and under a different set of conditions.

Earth's magnetic field launch Alfvén waves about 80,000 miles above the planet's surface, Howes said. Electrons in the magnetosphere then start surfing the waves at an altitude of around 10,000 miles.

But auroras don't form until the electrons are around 100 miles away from Earth, he said. At that point, the electrons slam into oxygen and nitrogen molecules, releasing photons - particles of light. In that process, oxygen atoms give off a red or green hue, while nitrogen atoms emit blue or purple light.

Researchers settled for a much dimmer light show inside the lab.

"The plasma itself does glow - it's very pretty," Howes said. "But the glow that you think of as these accelerated electrons hitting the plasma is not what we see."

Read the original article on Business Insider

[Author: [email protected] (Aria Bendix)]


Tags: Space, Science, News, Trends, Earth, Northern Lights, Ucla, Rovaniemi, Landau, University of Iowa, University of California Los Angeles, Lapland Finland, Howes, Lev Landau, Reuters Scientists, Auroras, Alfven, Craig Kletzing, Aria Bendix, Alexander Kuznetsov, Austin Montelius University of Iowa, Kletzing, Gregory Howes, UCLA Auroras

Source:  http://feedproxy.google.com/~r/typepad/alleyinsider/silicon_alley_insider/~3/89oaz7TR5J0/northern-lights-aurora-origin-electrons-waves-2021-6



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