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Skywarden,
Ursa Astronomical Association
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00130 Helsinki
taivaanvahti(at)ursa.fi

Ursa Astronomical Association

Pääsateenkaari - 25.8.2020 at 19.50 - 25.8.2020 at 20.20 Juva Observation number 93143

Visibility III / V

Petri Martikainen, Ursa (Itä-Suomi)

The rain in the evening created a decent rainbow. The rain was also heavy in the direction of the sun, so I tried to get pictures of the third and fourth rainbows as well. After all, that was quite easy, although sometimes there was a little inconvenience with the drops thrown into the lens by the wind.

In Figures 1-4, the image treated at the top (double-usm + bg) and the original at the bottom, in the middle of the quadrature image also only the believed version. Figures 1 and 2 are still images and Figures 3-4 are stacks (30 and 21 images). Figure 5 shows an untreated image of the main and side rainbow. Images are cropped to varying degrees and are in random order.

EDIT: I added a new version of the four-image stack for the sixth image, from which I removed a few worse frames and raindrops on the lens. There are 18 pictures left in the stack. I used it a little more briskly and also marked the orders of the rainbows.


Additional information
  • Lightsource of the phenomenon
    • Sunlight
  • Rare atmospheric phenomena
    • 4th order rainbow info

      Neljäs sateenkaari eli neljännen kertaluvun sateenkaari on havaittavissa toisinaan kolmannen sateenkaaren ulkopuolella.

      Ilmiön syntyyn tarvitaan neljä valonsäteen heijastusta vesipisaran sisällä. Useiden heijastusten johdosta ilmiö on yleensä himmeä ja siksi hyvin harvinainen.

      Kuvankäsittely auttaa merkittävästi mahdollisuutta saada neljäs sateenkaari esiin. On mahdollista, että järjestelmällisellä kuvauksella ja kuvien käsittelyllä havaintoja olisi paljon enemmän.  

      Kontrastia lisäävä tumma sadepilvi kolmannen ja neljännen sateenkaaren taustalla helpottaa niiden näkymistä, mutta molemmat on valokuvattu myös selkeää taivasta vasten. 

      Toisin kuin pää- ja sivusateenkaari, kolmas ja neljäs sateenkaari näkyvät valonlähteen puolella taivasta.
       

      Tummaa sadepilveä vasten näkyvät niin kolmas (ylempi nuoli) kuin neljäs (alempi nuoli) sateenkaari. Edellisessä punainen on ulkoreunalla, jälkimmäisessä sisäreunalla. Kuva Michael Theusner.

    • Tertiary rainbow info

      Kolmas sateenkaari eli kolmannen kertaluvun sateenkaari saartaa valonlähdettä noin 40 asteen etäisyydellä siitä. Se on siis jotakuinkin saman kokoinen kuin pääsateenkaari.

      Kolmannen sateenkaaren syntyyn tarvitaan kolme valonsäteen heijastusta vesipisaran sisällä. Tästä syystä ilmiö on himmeä ja erittäin harvinainen.

      Kuvankäsittely auttaa merkittävästi mahdollisuutta saada kolmas sateenkaari esiin. On mahdollista, että järjestelmällisellä kuvauksella ja kuvien käsittelyllä havaintoja olisi paljon enemmän.  

      Kolmannen sateenkaaren ulkopuolella voi esiintyä myös neljäs sateenkaari. Kontrastia lisäävä tumma sadepilvi ilmiöiden taustalla helpottaa niiden näkymistä, mutta molemmat sateenkaaret on valokuvattu myös selkeää taivasta vasten.

       

      Tummaa sadepilveä vasten näkyvät niin kolmas (ylempi nuoli) kuin neljäs (alempi nuoli) sateenkaari. Nämä sateenkaaret esiintyvät Auringon puolella taivasta, tavalliset pää- ja sivusateenkaari näkyvät Aurinkoa vastakkaisella taivaalla. Huomaa että kaarten värit ovat vastakkaisessa järjestyksessä. Kuva Michael Theusner.

  • Common atmospheric phenomena
    • Secondary rainbow info

      Secondary rainbow or 2nd order rainbow ,is an arc that appears in the colors of the spectrum. The colors are created when light refracts and is reflected in raindrops in the sky. A secondary rainbow is almost always observed with a brighter primary rainbow. The outer color of the secondary rainbow is blue / purple and the inner color is red. The color order of the main rainbow is reversed.

      These two rainbows are located on the opposite side of the sky from the light source that causes them. A typical light source is the Sun, but extremely rarely the Moon can also cause rainbows in Finland. The rainbows of the moon have their own phenomenon identification in Skywarden.

      The main and side rainbows theoretically encircle the spot of the observer's head's shadow, i.e. the so-called antisolar point, as complete rings. Usually, however, their appearance is interrupted by the horizon.

      The econdary arc in theory always occurs with the main rainbow, but sometimes a distant downpour or sunshine can be limited so that the main rainbow is not visible. Another exceptional situation is when the light source is so high that the main rainbow is already below the horizon, but the side rainbow is still above the horizon. The radius of the main rainbow is 42 degrees, which means it falls below the horizon at an altitude of 42 degrees. The radius of the side rainbow is 51 degrees.

      Four rainbows of different orders have been observed. 3rd and 4th order rainbows on the Sun are very rare. Each order rainbow has its own phenomenon identification in Skywarden.

      A bright primary rainbow with fainter secondary rainbow. The colors are reversed in arcs. Image by Aki Taavitsainen

       

      The red color on the inner edge of the arc reveals that this is a secondary rainbow. Photo by Mirko Lahtinen.

    • Primary rainbow info

      Primary rainbow or 1st order rainbow, is an arc that appears in the colors of the spectrum and is created when light is refracted and reflected in raindrops in the sky. Its outer color is red and its inner color is blue / purple.

      The main rainbow is visible on the opposite side of the sky from the light source that causes it. A typical light source is the Sun, but extremely rarely the Moon can also cause a rainbows. The lunar rainbows have an own category in Skywarden.

      One or more supernumerary bows may occur inside the main rainbow.

      The fully developed main rainbow is at the point of the shadow of the observer's head, i.e. the ring surrounding the so-called antisolar point. Usually the phenomenon is interrupted by the horizon, but from the air, the rainbow can be seen as a perfect circle continuing below the horizon.

      The rainbow gradually turns into a fogbow as the droplet size decreases. The smaller the droplets are, the smaller the rainbow is in size. Rainbows caused by the smaller droplets tend also to be thicker and the white color begins to dominate them. Usually, rainbow and fogbow are clearly separate phenomena, but sometimes intermediate forms can occur.

      Colors can be used as the primary guideline for distinguishing different bow-like phenomena. If the bow shows colors of the spectrum and is not white, it is a rainbow. If, on the other hand, the arc is mainly dominated by white and some of the colors in the spectrum are missing, it is a fogbow.

      Anomalies can sometimes be seen in the appearance of rainbows. They are reported in Skywarden by clicking the box for an anomalous rainbow. One anomaly is a point of discontinuity where the radius of the rainbow changes. The second is the division of the rainbow into two separate arcs.

      Rainbows of four different orders have been observed. A secondary rainbow, i.e. a 2nd order rainbow, occurs often outside the primary rainbow. 3rd and 4th order rainbows are very rare and occur in the direction of the light source (eq. on both sides of the Sun). Each order of rainbows in Skywarden has its own phenomenon identification tag/button.

      Primary and secondary rainbow. Image by Eetu Saarti.

      Primary (on the left) and secondary rainbow (on the right). Image by Vesa Vauhkonen.

      The primary rainbow is often seen as just a band of colors close to the horizon. Photo by Eetu Saarti.

      When the Sun is close to the horizon, the colors of the rainbow turn red. Primary rainbow can be seen on the left side of the picture along with a faint secondary bow on the right. Image by Vesa Vauhkonen.

      Primary rainbow from plane. Also a faint secondary bow is visible. Photo by Jouni Finnilä.

      Primary rainbow with supernumerary bows within the main arc. Photo by Arja-Sisko Airila.
       

      Strange weather condition with the primary rainbow in the horizon (Sun is at the height of 42 degrees). A faint secondary rainbow is also visible in the sky. Image by Jouni Matula.

      In dense rain, a rainbow may appear against nearby buildings or the forest. Here the main rainbow stands out weakly against the forest behind the apartment building. Photo by Matias Takala. 

      This slightly divided main rainbow (at the top) is probably a sign of flattened water droplets. Image by Jaakko Kuivanen

Comments: 2 pcs
Matti Helin - 26.8.2020 at 09.07 Report this

Hieno kaarikattaus 

Emma Bruus - 26.8.2020 at 11.00 Report this

Mainio havainto! Toimii samana (huolellisesti dokumentoituna) esimerkkinä muille millaista ilmiötä kannattaa metsästää.

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