Diversity helps a place survive
Ned Rozell
907-474-7468
Sept. 2, 2021
Last week, I wrote about some of the breaks the Geophysical Institute at the University
of Alaska Fairbanks has enjoyed during its 75-year existence.
Another key for this place where a few dozen researchers study things 鈥渇rom the center
of the Earth to the center of the sun鈥 is that its directors have followed the advice
of your financial advisor: diversify your portfolio.
The Geophysical Institute hatched in the late 1940s because the aurora sometimes interfered
with high-frequency radio communications used by ship captains and aircraft pilots
during World War II.
The fledgling institute and its graduate students who became experts in space physics
were then in a good place during the International Geophysical Year of 1957-1958.
During that vast campaign, there was plenty of funded work to do, with new instruments
that had to be tweaked for use in the far north. And someone 鈥 those institute students
鈥 also had to make sense of the thousands of black-and-white aurora images those all-sky
cameras provided.
Australian Keith Mather, a physicist who became director of the institute in 1963,
was happy to govern the team of respected and successful aurora experts here in Fairbanks.
But he also knew that to survive over the long term, the place had to become something
more.
During 鈥渢he post-war euphoria for science and relatively plentiful funding,鈥 Mather
swung the doors open to those who studied things other than the thin air 60 miles
above our heads. One of the first to walk in was former Minnesotan Carl Benson, who
will tell you he was one of the first here for whom the ground was 鈥渘ot just for bolting
instruments into.鈥
Benson, at 94 still a good-humored presence in these halls, was a favorite of Mather鈥檚
for his Midwest charm, and because Benson dove into the studies of many northern phenomena
such as ice fog, which forms in Fairbanks when the air is colder than about minus
30 Fahrenheit and water vapor floats in the air like cotton candy. Benson also worked
on glaciers in the Brooks Range and Wrangell Mountains, which included building a
鈥渧olcanically heated hut鈥 on Mt. Wrangell鈥檚 summit.
One year after Mather became director, the 1964 Great Alaska Earthquake rocked the
world. Mather recognized that geophysical event as an opportunity. The institute had
recently started a seismology section, which expanded rapidly due to the interest
a magnitude 9.2 earthquake stimulates.
Other scientists attracted here would soon write their own grant proposals for studying
volcanoes (dozens of which in Alaska have been active in historic times) and atmospheric
science (such as the study of a blob of pollution known as Arctic Haze, which visited
Alaska each spring from northern Russia and Asia).
The opportunities kept coming, like the construction of a rocket range in the muskeg
30 miles of Fairbanks, and the building of ground-based receiving stations for information
gathered by polar-orbiting satellites that loop directly over Fairbanks. The institute
is now also a far-northern base station for unmanned aerial vehicles and their pilots.
People still study the aurora and other aspects of space physics here, but you are
just as likely to run into a grad student who squints at satellite images of the Seward
Peninsula and counts beaver dams.
One of those graduate students way back at the beginning was Syun-Ichi Akasofu, who
turned 90 last December and still lives in Fairbanks. Not long after he arrived in
the far north from Japan, Akasofu 鈥 later a director of the institute himself 鈥 saw
how Mather鈥檚 efforts to diversify gave this place wings.
鈥淜eith鈥檚 directorship made the caterpillar institute into a butterfly institute,鈥
he said.
Since the late 1970s, the 51风流官网' Geophysical Institute has
provided this column free in cooperation with the 51风流官网 research community. This year
is the institute鈥檚 75th anniversary. Ned Rozell is a science writer for the Geophysical
Institute.