The Moon occults all the objects in the sky in a 10°-wide belt centred on the ecliptic within a period of about nine years. Initially, astronomers' primary goal of observing lunar occultations of stars was to refine the parameters of the Moon's orbit. With the advent of large telescopes and fast electronics, lunar occultations have found application in measuring stellar angular diameters, detecting dust envelopes around stars, and a variety of other studies.

Lunar occultations are used extensively to determine the angular diameters of cool giant stars such as Antares and Aldebaran. An angular resolution of a few thousandths of an arc second is achievable. As a star becomes occulted, its light is diffracted around the sharp edge of the Moon and produces a characteristic oscillatory signal. From the duration and shape of the signal, astronomers can derive the diameter and effective surface temperature of the star. The event is so fast, lasting only a few milliseconds, that any distortion due to Earth's atmosphere (twinkling, or scintillation) is eliminated, which is an advantage over the alternative method of optical interferometry. The diameters of some stars determined in this way seem to vary in time, as if the stars are pulsating slowly.

Lunar occultations have also revealed dust shells around stars and helped determine their shape and structure. One class of stars studied this way are the Wolf-Rayet stars—large, massive stars that blow off a thick envelope of material from their surface in a stellar wind as they near the end of their lives. In addition, lunar occultations are useful for discovering binary stars, and systematic surveys of the sky are made for this purpose.

Arguably the most famous application of lunar occultation occurred in 1962, when the British astronomer Cyril Hazard and colleagues used the Parkes radio telescope in Australia to refine measurements of the positions in the sky of catalogued radio sources that were not identified with any known stars or galaxies. To improve the accuracy of the positions, Hazard timed the occultation of the sources by the Moon. One radio source, designated 3C 273, turned out to consist of two sources separated by 19.5 arc seconds. The signal from one component suggested it could be a star, but it had a type of radio spectrum that had never been seen before. The following year the American astronomer Maarten Schmidt identified a 12th-magnitude star at the precise location of this radio source and obtained its spectrum. The spectrum showed that the source was receding at 15 percent of the speed of light and was therefore very distant. Hazard had in fact resolved the location of the first known quasi-stellar radio source, or quasar.

All the major planets and their moons occult stars in their paths, and such occultations can occasionally yield information on planetary atmospheres. For example, variations over time in the atmosphere of Pluto have been inferred from stellar occultations. Sometimes a stellar occultation produces a stunning surprise, as occurred on March 10, 1977, when the planet Uranus was predicted to pass between Earth and a bright star. The event was observed by several teams of astronomers, who hoped to derive an accurate estimate of the diameter of the planet from their data. Unexpectedly, however, the light from the star was briefly obscured several times before and after the disk o f Uranus occulted it. It was concluded that the brief changes in the star's brightness were due to the presence around Uranus of a previously unobserved system of rings, somewhat like the rings of Saturn.

Asteroids, like moons and planets, occult stars as they orbit the Sun. By timing the vanishing and reappearance of a star as an asteroid crosses it from two or more locations on Earth, astronomers can determine the asteroid's size and shape. In modern times a large community of professional and amateur scientists has cooperated in predicting and observing such occultations. For example, on Jan. 19, 1991, observers at nine locations across the United States timed the occultation of a star by Kleopatra, a main-belt asteroid. The timings determined nine different chords across the asteroid, from which was drawn a rough outline of the asteroid, showing it to have an elongated, cigar shape.

Was this article helpful?

0 0
Telescopes Mastery

Telescopes Mastery

Through this ebook, you are going to learn what you will need to know all about the telescopes that can provide a fun and rewarding hobby for you and your family!

Get My Free Ebook

Post a comment