star Stellar motionsastronomy

Accurate measurements of position make it possible to determine the movement of a star across the line of sight (i.e., perpendicular to the observer)—its proper motion. The amount of proper motion, denoted by μ (in arc seconds per year), divided by the parallax of the star and multiplied by a factor of 4.74 equals the tangential velocity, V_T, in kilometres per second in the plane of the celestial sphere.

The motion along the line of sight (i.e., toward the observer), called radial velocity, is obtained directly from spectroscopic observations. If λ is the wavelength of a characteristic spectral line of some atom or ion present in the star, and λ_L the wavelength of the same line measured in the laboratory, then the difference Δλ, or λ − λ_L, divided by λ_L equals the radial velocity, V_R, divided by the velocity of light, c—namely, Δλ/λ_L = V_R/c. Shifts of a spectral line toward the red end of the electromagnetic spectrum (i.e., positive V_R) indicate recession, and those toward the blue end (negative V_R) indicate approach (see Doppler effect; redshift). If the parallax is known, measurements of μ and V_R enable a determination of the space motion of the star. Normally, radial velocities are corrected for Earth’s rotation and for its motion around the Sun, so that they refer to the line-of-sight motion of the star with respect to the Sun.

Consider a pertinent example. The proper motion of Alpha Centauri is about 3.5 arc seconds, which, at a distance of 4.4 light-years, means that this star moves 0.00007 light-year in one year. It thus has a projected velocity in the plane of the sky of 22 km per second. (One kilometre is about 0.62 mile.) As for motion along the line of sight, Alpha Centauri’s spectral lines are slightly blueshifted, implying a velocity of approach of about 20 km per second. The true space motion, equal to (22² + 20²)^1/2 or about 30 km per second, suggests that this star will make its closest approach to the Sun (at three light-years’ distance) some 280 centuries from now.