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Vera Rubin Opened Doors in Astronomy, and for Women

Oct 25

Written by: Del Meyer
10/25/2017 4:50 AM 

Vera Rubin, 88, Dies; Opened Doors in Astronomy, and for Women


Vera Rubin, who transformed modern physics and astronomy with her observations showing that galaxies and stars are immersed in the gravitational grip of vast clouds of dark matter, died on Sunday in Princeton, N.J. She was 88.

Her death was announced by the Carnegie Institution of Washington, where she had been a longtime staff astronomer.

Dr. Rubin, cheerful and plain-spoken, had a lifelong love of the stars, championed women in science and was blunt about the limits of humankind’s vaunted knowledge of nature

Her work helped usher in a Copernican-scale change in cosmic consciousness, namely the realization that what astronomers always saw and thought was the universe is just the visible tip of a lumbering iceberg of mystery.

Scientists now know we are not the center of the universe, nor are we even made of the same stuff as most of creation. Cosmologists have now concluded that there is five or 10 times as much dark matter in the universe as there is ordinary atomic matter — the stuff of stars, planets and people.

What it is, nobody knows, although theories abound, and attempts to identify it in laboratory and particle-accelerator experiments and in outer space have transfixed modern physics.

“We know very little about the universe,” Dr. Rubin said in an interview for “Lonely Hearts of the Cosmos: The Story of the Scientific Quest for the Secret of the Universe.” “I personally don’t believe it’s uniform and the same everywhere. That’s like saying the earth is flat.”

President Bill Clinton awarded Dr. Rubin the National Medal of Science in 1993, and she was frequently mentioned as a candidate for the Nobel Prize.

Sandra Faber, a staff astronomer at the University of California, Santa Cruz, said that Dr. Rubin, along with Margaret Burbidge, who is retired from the University of California, San Diego, was a “guiding light” for a generation of female astronomers.

In a statement written for Scientific American, Dr. Faber wrote, “Rubin’s happy family history raising four children, all of whom eventually earned their own Ph.D.’s, was particularly inspiring to young females.”

She was born Vera Florence Cooper on July 23, 1928, in Philadelphia, the younger daughter of Philip Cooper, an electrical engineer who worked at Bell Telephone, and Rose Cooper, who had also worked at the phone company but had to quit her job because of nepotism rules. The family moved to Washington when Vera was 10. She later said she had become entranced by astronomy from watching the stars wheel past her bedroom window.

She was drawn to Vassar College as an undergraduate because Maria Mitchell, the first American to discover a comet, had taught there. In a sign of the challenges to come, her high school science teacher told her that she would be fine in a career as long as she stayed away from science. She graduated in 1948, the sole astronomer in the class.

That year, she married Robert Rubin, who was then a graduate student in physical chemistry at Cornell. She had hoped to get a Ph.D. from Princeton, but the astrophysics graduate program did not admit women at the time and declined to send her a course catalog. So instead she went to Cornell to obtain a master’s degree and finished it in 1951.

When her husband got a job at Johns Hopkins in Baltimore, the family moved to Washington and she enrolled at Georgetown University. She earned her Ph.D. there studying the properties and motions of distant galaxies while raising her children. . .

Breaking into the field was never easy. One day in 1950 she drove with a month-old baby through a snowstorm to a meeting in Pennsylvania to deliver a paper with data, which she later decided was questionable, about the rotation of the universe, only to be chastised and humiliated by “senior astronomers,” she said. She fled the city and the issue of cosmology.

Another time, she recalled, she was excited to be summoned to a meeting with the eminent astrophysicist George Gamow, only to learn that they would have to talk in the lobby because women were not allowed upstairs in the offices.

Dr. Rubin never forgot. “Don’t let anyone keep you down for silly reasons such as who you are,” Rebecca Oppenheimer, an astrophysicist at the American Museum of Natural History, recalled being counseled by Dr. Rubin. “And don’t worry about prizes and fame. The real prize is finding something new out there.”

Dr. Rubin joined the Carnegie Institution, in its department of terrestrial magnetism, in 1965, after holding teaching posts at Montgomery College in Maryland and at Georgetown.

Yet by Dr. Faber’s account, she still had to battle for access to a 200-inch telescope on Palomar Mountain in California jointly owned by Carnegie and Caltech. When she did get there, she found that there was no women’s restroom. As her friend and institute colleague Neta Bahcall later told Discover magazine, Dr. Rubin taped an outline of a woman’s skirt to the image of a man on a restroom door, making it a ladies’ room.

By then, averse to controversy and the sharp elbows of “senior astronomers,” Dr. Rubin was looking for a field of research that would keep her out of trouble. “I wanted a problem that nobody would bother me about,” she said later.

That was when she stumbled into the most daunting problem in modern astronomy: the discovery that most of the universe is invisible.

Teaming up with a young Carnegie colleague, W. Kent Ford Jr., Dr. Rubin set out in the early 1970s to map the distribution of mass in spiral galaxies by measuring how fast they rotated. The faster the stars were going around, the more gravity, and thus mass, must be keeping them in their orbits.

They expected to find that most of the mass was where most of the starlight was, at the centers of the galaxies. In that case, stars on the outer fringes of a galaxy should have been moving more slowly than those in the inner regions — the way Pluto, on the outskirts of the solar system, takes 248 years to go around the sun, while Mercury speeds around in 88 days.

To their shock, however, they found that the stars on the outskirts of galaxies were not slowing down; if anything, they were speeding up. By the laws of either Newton or Einstein, it meant that there was extra mass out there where there was relatively little light, mass that was speeding up the stars.

“Great astronomers told us it didn’t mean anything,” Dr. Rubin said. Told to look at more galaxies, they did, and the effect persisted.

In fact, the idea that there was more to the universe than could be seen had been lurking on the edges of scientific respectability since the 1930s, when the Caltech astronomer Fritz Zwicky deduced that some invisible “missing mass” was required to supply the gravitational glue that held clusters of galaxies together. Otherwise, with the galaxies moving so fast, a cluster would simply fly apart.

“Nobody ever told us all matter radiated” light, Dr. Rubin said. “We just assumed it did.”

Another boost to this idea had come in 1973, when the Princeton theorists Jeremiah Ostriker and James Peebles suggested, based on computer simulations, that spiral galaxies would warp and fall apart — because of gravitational forces from stars — unless they were embedded in a halo of dark matter, like a hamburger patty surrounded by a bun.

Dr. Rubin and Dr. Ford’s work brought these ideas to center stage.

“Vera’s work, mostly in the early ’80s, clinched the case for dark matter for most astronomers,” Dr. Ostriker wrote in an email, noting that she had been working with familiar galaxies and the kinds of optical observations that astronomers understood.

It helped that at the same time theoretical physics was exploding with new ideas, like supersymmetry and string theory, which implied the existence of new kinds of subatomic particles left over from the Big Bang and floating around the universe (and through our bodies) in clouds.

As Sheldon Glashow, a Nobel laureate now at Boston University, once remarked, “We theorists can come up with a lot of garbage to fill the universe.”

It has gotten worse. A wide range of astrophysical and cosmological measurements have subsequently arrived at an intimidating composition of the cosmos: 5 percent atoms, 27 percent dark matter and 68 percent the even more mysterious dark energy that seems to be speeding up the expansion of the universe — all of which subverts any illusion that astronomers might actually know what is going on.

In an interview in 2000 posted on the Natural History Museum website, Dr. Rubin said: “In a spiral galaxy, the ratio of dark-to-light matter is about a factor of 10. That’s probably a good number for the ratio of our ignorance to knowledge. We’re out of kindergarten, but only in about third grade.” . . .

During one of those flurries of excitement, in 2009, Dr. Rubin, who liked to stick to the facts, kept her cool. “I don’t know if we have dark matter or have to nudge Newton’s laws or what,” she said at the time.

She added: “I’m sorry I know so little sorry we all know so little. But that’s kind of the fun, isn’t it?”

Read the entire obituary in the NYT

Categories: In Memoriam

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