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Tilt Shift

In Exoplanets by Brian Koberlein0 Comments

The color of light we observe from a star depends not only on the color emitted from the star, but also the speed of that star relative to us. From this simple fact we can actually determine a great deal about a star, including the star’s axis of rotation relative to orbiting planets.

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Tilt a Whirl

In Exoplanets by Brian Koberlein0 Comments

As a star forms, a protoplanetary disk also forms, out of which the planets coalesce. Since the protoplanetary disk is generally aligned with the equator of the star, the planets form with that same basic orientation. This is what we see in our solar system and in many exoplanetary systems. But not all systems follow this rule.

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When Worlds Collide

In Exoplanets by Brian Koberlein0 Comments

The discovery of protoplanetary disks such as this one agree with the nebular hypothesis, which posits that a star and planetary system form together. The star collapses out of a nebula, and it forms an accretion disk around itself, out of which the planets form.

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Alpha Centauri has a Posse

In Exoplanets by Brian Koberlein6 Comments

When we started looking for extrasolar planets, Alpha Centauri was high on the list of any astronomer’s inner child. But despite its closeness, finding planets there would be difficult. The orbit of Alpha Centauri B is at an angle relative to us, so there isn’t likely to be any transiting planets that we can detect. That means planets would have to be found by looking at the wobble of the star as the planet orbits it, which is much harder to measure.

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New Earths

In Exoplanets by Brian Koberlein2 Comments

We’ve come a long way since the first extra-solar planet was discovered in 1995. Within a decade of that discovery, we will likely identify dozens of earth-like worlds, which is nothing short of amazing.

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Mass Transit

In Exoplanets by Brian Koberlein0 Comments

There are several ways to detect planets, but one of the more interesting methods is known as the transit method. You might remember the transit of Venus, when Venus passed in front of the Sun as seen from Earth. Imagine the same thing happening around a star, where a planet transits that star from our point of view.