Sunday 5 March 2017

Map in the sky



January 12th 2016 Mia Heikkilä noticed some peculiar light formations high in the night sky of Eura, Finland. She took some photos of the phenomenon. Camera revealed that formations consisted of spots and lines. She posted the pictures in Taivaanvahti where the phenomenon was recognized as an array of light pillars from street lights mirroring a network of streets. There have been some previous cases where streets and even their side streets have been recognizable from high floating pillars, but this is incomparable what comes to complexity of the "map".


In the second picture, there is a comparison between the "celestial" and "terrestrial" map (latter being mirrored for easier comparison). One can conclude, that zenith is in the uppermost part of the picture. There the pillars are seen directly from below, making them appear as dots. Away from zenith region, pillars are seen ever longer, as viewing angle increases. Also, one can notice, that parts of the farther streets "circling" the observing place are represented by pillars side by side forming a dotted line, whereas streets that are "radiating" from viewing location are represented by overlapping pillars fused together to a continuous line.
Another conclusion from the geometry of the pillars is that the light source isn't streetlights directly, but their light circles on the ground. It's quite amazing, that a divergent reflection from divergent light source can still produce pillars high in the sky.

But how high were the pillars? Several persons did independently calculations to find that out. Conveniently, there is a star field photo integrated in the picture for getting angular references. Measures of "terrestrial" counterparts of halo formations could be taken from topographical map. Results didn't deviate much from each other, averaging in 2,1 kilometers for crystal layer height. One calculation was also made to find out the thickness of the crystal layer and it resulted about 200 meters. Atmospheric sounding data later that night from Jokioinen (about 80 km from Eura) showed a sharp inversion layer just over 2 km. That's well in line with calculations.
One of the most common halo forms but how the display is presented - far from common!
Posted by at
Labels: ,

3 comments:

  1. LGYM5 March 2017 at 20:08

    I wonder what suggested the idea that the pillars were made by the reflection on the ground? Thanks a lot in advance!

    ReplyDelete
  2. Tero Sipinen6 March 2017 at 20:53

    It was the geometry. Since some of the pillars are seen as spots, it proves those are been seen directly from below. Streetlights do not leak that much light upwards, if at all. Another hint is the ratio between spot diameter and distance of adjacent spots. If spots were from upward shining streetlights (or other similar lamps), the spots would appear either smaller with same distribution, or with same diameter, more sparsely distributed. Large light area on snow surface explains 1) why pillars can be seen so high in sky and 2) the spot diameter/distribution ratio. Pretty amazing, isn't it. One could not easily imagine, that such "double divergent" light source could be sufficient to light up halos so high in the sky!

    ReplyDelete
  3. Nicolas Lefaudeux7 March 2017 at 19:38

    To me, the size of the spot could be explained by some small crystal tilt. But I agree it must light scaterred from snow. When flying above snowed cities you realize that most of the light you see comes from the ground and not from the direct light source for most of the streetlights.

    ReplyDelete

Subscribe to: Post Comments (Atom)