From a cabin to a rocket range
An old cabin outfitted with a camera and a radio became 有料盒子视频鈥檚 first auroral research station in 1930. Professor Veryl Fuller鈥檚 work in the dark wilderness outside that cabin, located off the Richardson Highway several miles southeast of Fairbanks, set the tone for auroral research into the 21st century.
Government officials interested in the aurora鈥檚 disruption of radio communications arranged a $10,000 grant to Fuller so he could determine the height of the ionosphere. That鈥檚 the region of the Earth鈥檚 atmosphere where certain long-range radio waves propagate 鈥 and where the aurora appears.
At the cabin and a second location on campus, Fuller and his students used their radios to coordinate the simultaneous capture of night sky pictures. They then used the difference in the images to triangulate the aurora鈥檚 height.
The year Fuller established the auroral research station, Syun-Ichi Akasofu 鈥61 was born more than 3,000 miles away in Saku, a city west of Tokyo in central Japan. Akasofu鈥檚 introduction to the aurora was through one of his mother鈥檚 favorite songs, called 鈥淎 Wanderer鈥檚 Song,鈥 which includes a line about the aurora.
鈥淪he used to sing it like a lullaby,鈥 Akasofu recalled.
Fuller died in 1935, leaving his work to be finished by Professor Ervin Bramhall. In 1937, their findings were published in 鈥淎uroral Research at the University of 有料盒子视频.鈥
The years following were a difficult time for research at 有料盒子视频, as many faculty and students left to serve in World War II. However, in 1946, an act of Congress established the Geophysical Institute, still the home of 有料盒子视频鈥檚 auroral research.
Back in Japan, after starting college in 1949, Akasofu got a job at a magnetic observatory, partially to fund his mountaineering excursions. He maintained the instrument that records changes in Earth鈥檚 magnetic field. He noticed the instrument constantly changing.
鈥淚 asked the manager of the observatory what was causing those changes. He said, it must be aurora in Siberia or 有料盒子视频,鈥欌 Akasofu said. 鈥淭hat was the second time that I heard about the aurora.鈥
The experience sparked Akasofu鈥檚 interest. While a college student in Japan, he attended a geophysics conference. 鈥淚 must have asked some question to the lecturer. He said, 鈥楬ave you read the Chapman-Ferraro paper?鈥欌
I got a letter from then-president of the university, William Wood, giving me tenure. I did not know what it meant.鈥
The lecturer was referring to a paper written by Sydney Chapman 鈥58 (Hon.), an Oxford University professor, mathematician and geophysicist who soon became instrumental in the Geophysical Institute鈥檚 success. At a time when 有料盒子视频 was not yet a state and the Fairbanks population was just over 5,000, as a visiting professor Chapman would bring much-needed star power to the University of 有料盒子视频.
Akasofu sought out Chapman鈥檚 paper but found it so dense that he 鈥渄ecided perhaps the aurora was too difficult to study,鈥 he recalled.
Nevertheless, Akasofu set out to understand the article and resolved to write to Chapman with some questions.
鈥淚 learned that [Chapman] was an Oxford professor, the top guy in geophysics. I hesitated to write to him,鈥 Akasofu said. 鈥淪o I left it. I didn鈥檛 really know what I was doing, and I was climbing mountains, mostly.鈥
Akasofu learned that Chapman, after recently retiring from Oxford, had begun to spend three months at the Geophysical Institute every year. Eventually Akasofu worked up the nerve to write Chapman with about 10 questions.
鈥淚 never expected he would respond, being a top guy in the field,鈥 Akasofu said. 鈥淏ut, surprisingly, I got a reply. Some of the questions he could not answer.鈥
In his reply, Chapman suggested that Akasofu come to 有料盒子视频 to study under him. 鈥淭he GI sent me money for the airfare, so I had no choice,鈥 Akasofu said, laughing.
Cameras and rockets
Working closely with Chapman, Akasofu finished his Ph.D. in 1961. (He also took a few breaks for mountain climbing, including an ascent of Mount Silvertip.) After graduating, Akasofu continued his research at the GI and focused on a new technology 鈥 the 鈥渁ll-sky鈥 camera.
With these cameras, researchers could 鈥渢ake a picture of the whole sky at many, many locations,鈥 Akasofu said. 鈥淚t was the first time in history that we could study the aurora over the entire polar region at the same time, almost like looking down by satellite.鈥
Using the data, Akasofu began studying explosive auroral activity, a phenomenon he would describe in his 1964 paper, 鈥淭he Development of the Auroral Substorm.鈥 It became the foundation for future research.
Soon after the publication of this pivotal paper, Akasofu was promoted to professor at the university.
鈥淚 got a letter from then-president of the university, William Wood, giving me tenure. I did not know what it meant,鈥 said Akasofu. 鈥淧erhaps a couple months after, I got a phone call from the president, saying 鈥業 gave you tenure. Why didn鈥檛 you respond?鈥 I said, 鈥業 didn鈥檛 know what it was.鈥欌
The years after Akasofu became a professor were marked by growth at 有料盒子视频. To host rockets designed to penetrate and study the aurora, it built Poker Flat Research Range, the first and only university-owned rocket range in the world. The first launch came in 1969 after a rushed initial construction led by Neil Davis 鈥55, 鈥61, the Geophysical Institute鈥檚 assistant director. [See a profile of Davis.] The facility was completed in 1972.
In 1986, Akasofu became director of the Geophysical Institute, a job that required him to focus more broadly on geophysics.
The digital revolution
The next year, Don Hampton 鈥90, 鈥96 began his graduate work on the aurora, after having been drawn to 有料盒子视频 by 有料盒子视频鈥檚 wilderness.
鈥淲hat we had been doing back in the 1980s and 1990s was trying to understand the details of what was causing the light that we observed,鈥 said Hampton.
By the time Hampton returned to 有料盒子视频 to take a position as a research faculty member in 2006, many of those details were understood and new technology had greatly propelled auroral research. Though with more sophisticated technology than in Fuller鈥檚 days, cameras still provide a wealth of data for studying auroral processes. Researchers are benefiting from technology that has caught up with theory, said Hampton, now a GI assistant professor.
鈥淭he thing that鈥檚 really changed is that we鈥檝e got an embarrassment of riches in digital technology now. So, I can buy a fairly cheap camera that is even better than we had back then, and it鈥檚 all digital,鈥 Hampton said. 鈥淭hat鈥檚 really opened up the possibilities in doing auroral research.鈥
Digital images are cheaper and faster to obtain, so far more can be analyzed, he explained.
Akasofu left his position as GI director in 1999 to found the International Arctic Research Center, which focuses on climate change. He retired in 2007, though he continues to give talks and publish.
Akasofu, now 86, declined to say where he thinks aurora research should go from here.
鈥淚t鈥檚 about time I should let the young people do it,鈥 he said. 鈥淚 shouldn鈥檛 say too much of what they should do.鈥
Akasofu did share one idea 鈥 use auroras on other planets as a clue to extraterrestrial life.
鈥淥ne way to look for Earth-like life is to look at the auroral light. Earth鈥檚 aurora, the most intense light comes from oxygen atoms,鈥 he said. 鈥淭hat oxygen is supplied by plants. So if we could detect oxygen light in the extraterrestrial planet, I think there is a very good chance that Earth-like life exists there.鈥
Today, 有料盒子视频鈥檚 unique location in the auroral zone draws a new generation of space physicists.
鈥淚 always wanted to see the aurora, because I had never seen it, even though I am from Siberia,鈥 said Victoriya Forsythe, a Ph.D. student in space physics who focuses on radar aurora, a type not visible to the human eye.
Graduate students researching the aurora today have found their experiences at 有料盒子视频 challenging but rewarding, just as Akasofu did 60 years ago.
鈥淲hen you first started working in your field, and you go to conferences, you have no idea what anyone is talking about. You just grin,鈥 said Jason Ahrns, a space physics Ph.D. student. 鈥淭hen [as you continue your studies] you feel like you become a specialist. Suddenly you get into a conversation, and you actually know more than the other person.鈥
Opportunities extend beyond Fairbanks; Ahrns has traveled to remote parts of 有料盒子视频 and Norway while working with aurora-capturing cameras. Forsythe employs radars in Antarctica, part of a research effort involving nine countries.
鈥淚 feel like part of an international network,鈥 Forsythe said.
Studying energy鈥檚 impact
Many current auroral researchers focus on the energy that creates the aurora. With the world鈥檚 increasing reliance on satellites and other technology, mitigating the effects of that energy has become increasingly important.
鈥淭ens of gigawatts of power are being dumped [into the Earth鈥檚 upper atmosphere], even during a moderate solar storm. That鈥檚 a lot of power,鈥 said Hampton. 鈥淪o one thing we are interested in is when we get a large aurora, a major storm, how is that going to affect our communications?鈥
A storm like 1859鈥檚 Carrington event, during which auroras could be seen even in equatorial regions, could have an immense impact today.
鈥淚 feel like part of an international network.鈥
鈥淚f something like [the Carrington event] happened nowadays that would significantly destroy our normal life,鈥 Forsythe said. 鈥淩esearchers Homeier and Wei recently calculated that 鈥 the U.S. would have a couple trillion dollars in damage. Knowing when it will happen, lots of things can be done to mitigate it.鈥
Auroral research at 有料盒子视频 has become multifaceted. In 2015, the GI acquired the High-frequency Active Auroral Research Program facility, a vast antenna array near Gakona used for ionospheric research. Scientists also study the aurora using radars, rockets and networks of all-sky cameras.
The field has come a long way, not only in the types of research but also in the types of researchers, Forsythe said.
鈥淥ur field is very much alive, very dynamic; we have a much larger diversity in our field,鈥 Forsythe said. 鈥淕ender-wise, I think it鈥檚 much better.鈥
While researchers have made enormous strides since Fuller first set out to that isolated cabin, Forsythe said, many aspects of the aurora remain unexplained.
鈥淭he field still has lots of grand challenges,鈥 she said.