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Scientists Solve the Mystery of Unexplained "Bright Nights"
Posted by Guy Pirro on 6/21/2017 7:42 PM


The different layers of Earth’s airglow can be seen from the International Space Station as it orbits Earth. The very thin green layer above the bottom of the window occurs 95 kilometers (59 miles) above Earth’s surface; the red region above is a different type of airglow. The rectangle represents the portion of the airglow measured in a single WINDII image. (Image Credit: American Geophysical Union)


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Dating back to the first century, scientists, philosophers, and other observers have noted the occasional occurrence of "Bright Nights," when an unexplained glow in the night sky lets observers see distant mountains, read newspapers, or check their watches.

A newly released study uses satellite data to present a possible explanation for these puzzling historical phenomena. The researchers suggest that waves in the upper atmosphere converge over specific locations on Earth and amplify naturally occurring airglow -- a faint light in the night sky that often appears green due to the activities of atoms of oxygen in the high atmosphere. Normally, people don't notice airglow, but on Bright Nights it can become visible to the naked eye, producing the unexplained glow detailed in historical observations.

Few, if any, people observe Bright Nights anymore due to widespread light pollution, but the new findings show that they can be detected by scientists and may still be noticeable in remote areas. Bright airglow can be a concern for astronomers, who must contend with the extra light while making observations with telescopes.

"Bright Nights do exist and they're part of the variability of airglow that can be observed with satellite instruments," said Gordon Shepherd, an aeronomer at York University in Toronto, Canada. (As a side note, an aeronomer is a scientist that deals with the physics and chemistry of the upper atmosphere of planets).

Historical accounts of Bright Nights go back centuries. Pliny the Elder (aka Gaius Plinius Secundus -- a Roman author, naturalist, and natural philosopher in the first century AD) described Bright Nights as follows, "The phenomenon commonly called Nocturnal Sun -- a light emanating from the sky during the night -- has been seen during the consulate of C. Caecilius and Cn. Papirius (approx 113 BC), and many other times, giving an appearance of day during the night."

European newspapers and the scientific literature also carried observations of these events in 1783, 1908, and 1916.

"The historical record is so coherent, going back over centuries, the descriptions are very similar," Shepherd said.

Modern observations of Bright Nights from Earth are practically nonexistent. Even devoted airglow researchers like Shepherd and his colleagues have never seen a true Bright Night with their eyes. But even before the advent of artificial lighting, Bright Nights were rare and highly localized.

"Bright Nights have disappeared," Shepherd said. "Nobody sees them, nobody talks about them, or records them any longer, but they're still an interesting phenomenon."

Shepherd knew of the historical observations and could see Bright Night events reflected in airglow data from the Wind Imaging Interferometer (WINDII), an instrument once carried by NASA's Upper Atmosphere Research Satellite (1991-2005), but he couldn't explain why the phenomena occurred.

He and co-researcher, Youngmin Cho, a research associate at York University, searched for mechanisms that would cause airglow to increase to visible levels at specific locations.

Airglow comes from emissions of different colors of light from chemical reactions in the upper reaches of the atmosphere. The green portion of airglow occurs when light from the sun splits apart molecular oxygen into individual oxygen atoms. When the atoms recombine, they give off the excess energy as photons in the green part of the visible light spectrum, giving the sky a greenish tinge.

To find factors that would cause peaks in airglow and create Bright Nights, the researchers searched two years of WINDII data for unusual airglow profiles, ruling out meteors and aurora, which have their own distinct signatures. They identified eleven events where WINDII detected a spike in airglow levels that would be visible to the human eye, two of which they describe in detail in the study.

Finally, the researchers matched up the events with the ups and downs of zonal waves, large waves in the upper atmosphere that circle the globe and are impacted by weather. When the peaks of certain waves aligned, they produced Bright Night events that could last for several nights at a specific location. These events were four to ten times brighter than normal airglow and could be responsible for the Bright Nights observed throughout history.

"This [study] is a very clear, new approach to the old enigma of what makes some night skies so remarkably bright, and the answer is atmospheric dynamics," said Jurgen Scheer, an aeronomer at Instituto de Astronomía y Física del Espacio in Buenos Aires, Argentina, who was not connected to the study. "We now have a good idea which dynamical phenomena are behind [airglow] events of extreme brightness."

From their data, the researchers estimate that at a specific location, visible Bright Nights occur only once per year and their observation would rely on a sky watcher looking from a remote location on a clear, moonless night with dark-adjusted eyes. Shepherd estimates that a Bright Night occurs somewhere on Earth, at different longitudes, on about seven percent of nights.





Walking on Air -- This video features a series of time lapse sequences photographed by the Expedition 30 crew aboard the International Space Station. Set to the song "Walking in the Air," by Howard Blake, the video takes viewers around the world, through auroras, and over dazzling lightning displays. Earth's airglow can be seen as a greenish bubble 95 kilometers (59 miles) above the Earth's surface. (Video Credit: NASA)




If an astronomer wanted to experience a Bright Night personally, Shepherd suspects that scientists could predict their occurrence if they monitored the waves continuously, so that they could calculate when their peaks would align.

The next challenge will be to reproduce the observed convergence of these waves through modeling and to consider the effects of other types of waves in the atmosphere, Scheer said.

"Maybe it's an almost dead question," Shepherd said. "I'm having the last word before it dies."

The American Geophysical Union (AGU) is dedicated to advancing the Earth and space sciences for the benefit of humanity through its scholarly publications, conferences, and outreach programs. AGU is a not-for-profit, professional, scientific organization representing 60,000 members in 137 countries.


For more information:

https://news.agu.org/press-release/scientists-solve-mystery-of-unexplained-bright-nights/




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