Kordylewski clouds, also named ghost moons, are concentrations of dust that exist at the and Lagrangian points of the Earth–Moon system.[1] [2] [3] [4] They were first reported by Polish astronomer Kazimierz Kordylewski in the 1960s, and confirmed to exist by the Royal Astronomical Society in October 2018.
Kordylewski began looking for a photometrically confirmable concentration of dust at the libration (Lagrangian) points in 1951.[5] [6]
After a change in method suggested by Josef Witkowski, the clouds were first seen by Kordylewski in 1956.[7] Between 6 March and 6 April 1961, he succeeded in photographing two bright patches near the Lagrange point. During the observation time, the patches hardly appeared to move relative to . The observations were taken from the mountain Kasprowy Wierch.[6]
In 1967, J. Wesley Simpson made observations of the clouds using the Kuiper Airborne Observatory.
In October 2018, the existence of the Kordylewski clouds was reported to have been confirmed by the Royal Astronomical Society, even though, earlier, in 1992, the Japanese Hiten space probe, which passed through the Lagrange points to detect trapped dust particles, did not find an obvious increase in dust levels above the density in surrounding space.[7] [8] Hiten's failure to find the Kordylewski clouds does not rule out their existence, since the probe revolved around each Lagrange point for only one loop and could have missed the clouds.[9]
The decisive factor and change of methodology that has led to the unambiguous confirmation of the existence of these extremely faint and elusive celestial objects was using polarimetry, i.e. detecting them by their polarization patterns, not (primarily) by their brightness.
The Kordylewski clouds are a very faint phenomenon, comparable to the brightness of the gegenschein.[10] They are very difficult to observe from Earth[7] but may be visible to the unaided eye in an exceptionally dark and clear night sky. Most claimed observations have been made from deserts, at sea, or from mountains.[10] The clouds appear somewhat redder than the gegenschein, indicating that they may be made of a different kind of particle.[7]
The Kordylewski clouds are located near the and Lagrange points of the Earth–Moon system. They are about 6 degrees in angular diameter.[7] The clouds can drift up to 6 to 10 degrees from those points.[10] Other observations suggest they move around the Lagrange points in ellipses of about 6 by 2 degrees.[7]