Published: Oct. 25, 2017 By ,

Few people have heard of Hisako Koyama, but the dedicated female solar observer, born in Tokyo in 1916, created one of the most important sunspot records of the past 400 years, according to new research published by the American Geophysical Union.

A young Hisako Koyama

Hisako Koyama at a telescope

The , recounts Koyama鈥檚 life finds;听she created detailed sunspot drawings for more than 40 years. Solar scientists recently used Koyama鈥檚 archive of more than 10,000 drawings to establish a continuous record of sunspot numbers stretching back to 1610. This sunspot reconstruction can help scientists better understand the solar cycle and how solar activity influences events on Earth.

Koyama鈥檚 story exemplifies the unheralded role women have played in science in the modern era, according to the study鈥檚 authors. Koyama was well-known in amateur astronomy circles for decades, but her contributions were not widely recognized by professional space scientists until several years ago.

Koyama鈥檚 observations place her among the top solar observers of the past four centuries, alongside names like Galileo, and make her one of the few women to have created a major solar observational record, according to the new study.

鈥淲omen scientists have been contributing in the sciences for a very long time, whether or not the documentation exists to that fact,鈥 said Delores Knipp, a space weather scientist at 麻豆免费版下载Boulder and lead author of the new study recounting Koyama鈥檚 work in Space Weather, a journal of the American Geophysical Union. 鈥淭his is my first attempt to make sure her record is revealed to a broader community, especially to young women considering science careers.鈥 听

Uncovering Koyama鈥檚 records

Knipp first heard about Koyama two years ago during a presentation by solar scientist Leif Svalgaard, where Svalgaard described the recently completed sunspot reconstruction project and showed a photo of Koyama at her telescope.

鈥淚 was astounded; I'd never seen a major observational solar record from a woman,鈥 Knipp said. 鈥淚t stuck in my mind, and I wondered why I hadn't heard of her.鈥

Koyama鈥檚 story stayed in the back of Knipp鈥檚 mind until she saw the 2016 film Hidden Figures,听which details the role of three African-American women scientists working at NASA during the space race.

鈥淚 was so taken and inspired by that, and even though I had been thinking about it before, the Hidden Figures听movie was the thing that pushed me into gear, and I said, 鈥業鈥檝e got to know more about this record from Japan,鈥欌 Knipp said. 鈥淎nd at that point I really started digging in to find collaborators who could help with the research.鈥

In the new study, Knipp worked with Huixin Liu, a space scientist at Kyushu University in Fukuoka, Japan, and Hisashi Hayakawa, a historical research fellow at the Japan Society for the Promotion of Science in Tokyo to research Koyama鈥檚 work and document her contribution to space science.

I was astounded; I'd never seen a major observational solar record from a woman.鈥
鈥揇elores Knipp

Koyama was born in 1916 and graduated from a girls鈥 high school in Tokyo in the 1930s, a rare feat for a woman in Japan during this time. Enthusiastic about astronomy from a young age, Koyama began observing the stars in her 20s. She began observing sunspots in the spring of 1944, using a refracting telescope that was a gift from her father.

Sunspots are temporary dark spots that appear on the surface of the sun, where areas of intense magnetic activity lower the sun鈥檚 surface temperature. Sunspots provide a useful measure of the sun鈥檚 activity, and scientists continue to track sunspots today. Their numbers vary as the sun goes through its 11-year solar cycle. Solar activity, like solar flares and coronal mass ejections, which can disrupt radar and radio communications when they enter near-Earth space, often occur when more sunspots appear.

Koyama made her first sunspot sketch in 1944 and sent it to scientists at Japan鈥檚 Oriental Astronomical Association (OAA). After an encouraging reply from the president of the OAA鈥檚 solar section, Issei Yamamoto, Koyama began observing sunspots regularly under Yamamoto鈥檚 guidance. By 1946 she was making regular solar observations at Tokyo鈥檚 National Museum of Nature and Science, known then as the Tokyo Science Museum. Koyama drew the solar features she observed, noting important features she saw and the conditions in which she was observing.

Later that year, Koyama became a staff observer at the museum. She in 1947 and witnessed a white-light solar flare while sketching sunspots in 1960.

Image of sunspots from NASA
Sunspots are temporary dark spots that appear on the surface of the sun, where areas of intense magnetic activity lower the sun鈥檚 surface temperature (Image听courtesy of NASA).

Koyama worked for the museum until she retired in 1981听at the age of 65. She used the same telescope to make drawings for her entire tenure at the museum and continued to use it as a museum fellow even after she retired. She chronicled more than 8,000 sunspot groups in her 1985 data book and made more than 10,000 solar sketches over her lifetime, until her death in 1997.

Koyama鈥檚 contributions

Amateur astronomers were aware of Koyama鈥檚 work but it did not come to the attention of the professional space science community until several years ago.

To better understand the solar cycle, an international group of scientists seen each year since scientists first observed them by telescope in 1610. The researchers searched through original sunspot observations for the past 400 years and discovered Koyama鈥檚 work in Japan. They combined her collection of drawings with those of Galileo Galilei, Pierre Gassendi, Johann Caspar Staudacher, Heinrich Schwabe and Rudolf Wolf to establish a continuous sunspot count for the past four centuries.

鈥淭hose five names are the giants of sunspot records,鈥 Knipp said. 鈥淎nd her name comes right along with them. So clearly, her records are in a class of great historical scientific records.鈥

Koyama鈥檚 more than 40 years of drawings proved invaluable to the scientists because few solar observations have been collected by the same person, using the same telescope and using the same observation method for such a long time, according to Knipp. Koyama鈥檚 records served as one of the official 鈥渂ackbones鈥 of the sunspot reconstruction project, bridging a key gap between records from the early 20th century and those taken during the space age.

Scientists will use the reconstructed sunspot record to better understand how the sun鈥檚 magnetic activity changes over time and how those changes affect Earth. Without Koyama鈥檚 record, researchers would not have been able to reconstruct the sunspot history with as much confidence, Knipp said.听听

鈥淢iss Koyama鈥檚 observational skills, her persistence, her consistency听and her keen eye for solar behavior听produced a remarkable record of solar behavior,鈥 she said. by staff members of the Tokyo鈥檚 National Museum of Nature and Science.

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