Avi Loeb: The Origins of Galaxies

Theoretical Astrophysicist, Harvard—Smithsonian Center for Astrophysics

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Abraham (Avi) Loeb is a professor of astronomy at Harvard University. Born in Israel in 1962, he is one of the pioneers in the field of early star and galaxy formation. His latest book, How Did the First Stars and Galaxies Form?, was published this year by Princeton University Press.

What discoveries do you expect in the near future that will help explain the early history of the universe?

In the next five years, astronomers will try to detect the scars that the first galaxies left on the hydrogen gas surrounding them. When stars form, they produce ultraviolet radiation that can ionize, or break, the hydrogen atoms into their constituent electrons and protons. You end up with bubbles of ionized hydrogen surrounding galaxies and groups of galaxies. We haven’t yet seen the process during which the very first galaxies formed and produced these bubbles.

Once we see this process, will that also explain why present-day galaxies, like the Milky Way, look the way they do?

It will tell us how the process started. We’re basically looking at our origins. The early universe was not hospitable for life. Only after that first generation of stars fused hydrogen in their cores to make heavier elements, like carbon, oxygen, and iron, could rocky planets like the Earth form and life begin. If we want to trace our origins—the scientific version of the story of Genesis—then we need to understand how the first stars formed and how they produced heavy elements. The first galaxies were the building blocks of the Milky Way, and the desire to understand them is a search for our roots.

In your book you list milestones that occurred within fractions of a second after inflation. Is there already empirical evidence for them?

For some of these events, there is evidence beyond a reasonable doubt. For others, there is a question mark because we have only indirect evidence.

How does the scientific community agree on what happened?

If there is no empirical data, then the community will never agree because there are always multiple options. People are just not convinced by theoretical arguments; they really need to see the evidence. It’s sort of like a detective story: Unless you have the clues, the story will not be accepted in court. We have observed directly the cosmic microwave background—radiation that is a relic of the Big Bang—so we know that the universe was denser and hotter in the past. But we haven’t yet figured out inflation, the fast expansion of the universe from a space smaller than an atom to a cosmos 100,000,000,000,000,000,000,000 [100 sextillion] miles in diameter. Some people are still skeptical about inflation.

Why did you pick this time to publish a book explaining the current beliefs about how stars and galaxies form?

The year 2010 marks a major transition point in studies of the first stars and galaxies. Until now, most of the research has been theoretical. The next decade will bring about a new generation of large telescopes with unprecedented sensitivity that promise to supply a flood of data about the infant universe during its first billion years after the Big Bang. Among the new observatories are the James Webb Space Telescope—the successor to the Hubble Space Telescope—and three extremely large telescopes on the ground. The fresh data on the first galaxies and the diffuse gas in between them will test existing theories about the formation and radiative effects of the first galaxies, and might even reveal new physics that has not yet been anticipated. This emerging interface between theory and observation will constitute an ideal opportunity for students considering a research career in astrophysics or cosmology. Since this is an ideal time to introduce new researchers to the field, I decided to write a book that summarizes the fundamental principles and theoretical ideas from the perspective of my own work over the past two decades.

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