NATURE|Vol 462|10 December 2009 OPINION

In Retrospect: ’s Astronomia Nova Jack J. Lissauer explains how the great astronomer’s insight into planetary orbits is still revealing new views of the Universe four centuries on — from extrasolar Earths to black holes.

Astronomia Nova astronomer and mathematician Aristarchus of stars block more light, such planets are easiest to by Samos, who lived in the third century bc. Gali- detect using the transit method. Hence, to date, First published 1609. leo’s discovery of four moons orbiting Jupiter all of the planets discovered in this way from the using a telescope confirmed that Earth wasn’t ground are larger than Uranus and have orbital the centre of the Universe around which every- periods of less than 10 days. But the clear view The 2009 International Year of thing in the celestial domain revolves. and unbroken observations available from space commemorates the 400th anniversary of two Kepler was the first to realize that orbits are mean that the Kepler mission should detect great discoveries: ’s detection of better described by traversed at non- smaller and more distant planets, notably Earth- Jupiter’s four major moons and the publica- uniform speed than by combinations of ‘perfect’ like bodies with one-year orbital periods around tion of Johannes Kepler’s monumental book circular motions on which orbits had hitherto Sun-like stars. Even smaller planets orbiting Astronomia Nova. In this 1609 work, Kepler been modelled. Like a modern data analyst, he near their stars will be detectable, as will more demonstrated that planets follow elliptical incorporated all of the observations with their distant planets that are larger than Earth. paths about the Sun, a breakthrough that set up inherent measurement errors in an attempt to Since Kepler deduced his laws, there have his famous three laws of planetary motion, still fit a model. His weaving together of observa- been many advances in our knowledge of plan- fundamental to physics and astronomy today. tions and mathematical models into a physical etary orbits, Isaac Newton’s theories of motion Astronomia Nova introduced the first two theory was a vanguard for future studies. and being the most substantial. The tra- of Kepler’s three laws: first, that each planet Kepler’s revolutionary model was accurate jectories of planets — and the Sun — can be per- moves on an elliptical path, with the Sun at one enough to predict the transits of the inner turbed by the gravitational pulls of other planets focus; and second, that a line connecting any planets Mercury and Venus across the Sun’s disc, and moons. Deviations of the motion of Uranus planet to the Sun sweeps out area at a constant which were first observed in 1631 and 1639, from that explained by Newton’s model led to rate — which implies that a planet moves faster respectively. Thus it is fitting that Kepler’s name the discovery of Neptune in 1846. By contrast, when it is nearer the Sun. In 1618, he deduced today graces the first space mission dedicated to irregularities in the motion of Mercury were his third law, which relates the motions of the searching for planets beyond our explained only by a completely new theory of planets to one another: the ratio of the orbital using a similar method. Launched on 7 March space-time and gravity, Albert Einstein’s general period squared and the mean distance from the this year, the Kepler spacecraft’s telescope will theory of relativity, published in 1915. Sun cubed is the same for each planet. continuously monitor the light from more than As astronomy has expanded its horizons, The full title of Kepler’s treatise, in translation, 100,000 stars looking for planetary transits over the application of Kepler’s laws has led to even notes the significant role that measurements of a period of at least three-and-a-half years. When stranger discoveries. Invisible dark matter is the orbit of had in the deduction of his a planet passes between its star and the telescope, needed to explain the fast orbits of gas in the laws: New Astronomy Based upon Causes, or once per orbit, the star dims measurably. outskirts of spiral galaxies — these orbital Celestial Physics Treated by Means of Commen- Because large planets orbiting close to their speeds exceed the predictions of Kepler’s third taries on the Motions of the Star Mars, from the law, which implies that an object with a large Observations of , Gent. Observations orbit should move slowly. And, by contrast, of the red planet were key because its orbit is the Keplerian behaviour of the orbits of stars more eccentric than any other planet apart from in our Galaxy’s centre has revealed the exist- Mercury, which is close to the Sun and difficult ence of a supermassive black hole at the core KOCH/NASA D. to observe. Kepler was also familiar with Mars of the Milky Way. because he was given accurate data on its motion Kepler was an early champion of the when he was hired to assist the great astronomer application of reason to our understanding of Tycho Brahe in 1600. The inclusion of ‘physics’ the Universe. He wrote in his introduction to in the title signifies Kepler’s mathematically and Astronomia Nova: “I prove philosophically not physically rigorous approach to the problem — only that the Earth is round … not only that it one that is familiar to any modern scientist but is contemptibly small, but also that it is carried not to natural philosophers of his era. Kepler’s along among the stars.” Four hundred years thinking was far ahead of that of most of his later, it is striking that we are still using his laws contemporaries. to measure planetary systems that lie far from In the same year that Astronomia Nova was our own. ■ published, the heliocentric model of the Solar Jack J. Lissauer is a space scientist at NASA’s System was only just verified. The concept Ames Research Center, Space Science & that Earth and other planets orbit the Sun is Astrobiology Division, Moffett Field, California credited primarily to , 94035, USA, and a visiting fellow at the Isaac who published his theory in 1543, more than Newton Institute for Mathematical Sciences, 60 years before Kepler’s book, although the Johannes Kepler’s 1609 book outlined his first Cambridge, UK. idea itself dates back at least as far as the Greek two laws of planetary motion. e-mail: [email protected]

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