The text below is a copy of a section from my halo nomenclature article published earlier this year (https://thehalovault.blogspot.com/2026/01/on-halo-naming.html) that deals with historical zenith arc extension observations and naming issues. I have it here as a post because I thought it might be useful companion for my upcoming post about a quite remarkable old display. I have quietly corrected a handful of typos. Two bigger changes are marked with asterisks and explained at the end.
* * * * * * * *
And so on to the naming of the arc observed by H. F. A Kern in Loenen aan de Vecht, Netherlands, on the morning of 8 October 1895. In the original report in the Dutch weather amateur's Onweders Optische Verschijnselen circular (1896), it is opined that "Earlier observations in which this arc is mentioned are doubted, because in most cases the imagination of the observer clearly emerges from the report" (the original text shown in the illustration below). I know only two older observations, and the other one, dating a century and half prior to Kern's, doesn't, in the light of the current knowledge, quite fall under that remark, at least in comparison to Kern's. This is the display by a Frenchman of the name Dufay in Paris, on 6 March 1735.
In contrast, Dufay's Paris display is already a multihalo. It's five halos against Kern's two. The little details – the slight asymmetry of zenith arc and its extension combo, the zenith arc not being in minimum deviation position, and the one-sidedness of the 46° halo * – add to the observation's street cred. It also contained parhelia, which is expected in a zenith arc extension display. It is also interesting to note that in none of the high-cloud-six (Jutland, Kissimmee and Reading x 4) the extension appears as a separate segment on the opposite side. The extension is faint in many of these displays, but the general picture is rather a one of continuations of the zenith arc than a separate arc – just like is the case with Dufay. (This in itself is admittedly strange as it suggests highly triangular plates and a persuasive line of evidence exists for not supporting high-triangulars taking stable plate orientations).
Today we have the benefit of simulations to know that while 136 makes an arc weighted at 180 degree azimuth from the sun, it is also exceedingly faint. The raypath that we are concerned with when looking at any single scattering display photograph of zenith arc extension, is 135. It is by far the dominating raypath in any realistically shaped plate oriented crystals and makes an arc that leaves a gap opposite to the zenith.
To be true, the raypath 136 for zenith arc extension is strengthened, to a varying degree depending on the crystal shape and light elevation, by similar raypaths 13457 and 13537. But the combo of these three raypaths still comes weak next to 135. Unlike 136, the two longer raypaths may not be perfectly opposite-weighted because they can have, depending on the crystal shape, an intensity drop at the opposite position and even an outright gap.
But having the raypath wrong is not the issue here. It is simply
that Dufay has an earlier observation that is more competent than
Kern's.
And I can't shake off the feeling of Kern's observation
being purposely faked. The observation is just too convenient. As if the
theory of the gespiegelde circumzenithale boog came first and then an
observation was concocted around it. But if it was fabricated, surely
they would have taken care to include the parhelia, right? In his
article, H. Ekema understands that the crystals required for the zenith
arc and its extension also make parhelia, but manages to put a positive
spin on the lacking of parhelia in Kern's observation by brushing the
issue under the carpet and instead noting that parhelia were indeed
reported in other localities that day. So maybe the Kern's arc was a
real feature in the sky – but not a halo but a funny cloud.
I
guess there is a difference on how to regard, in a historical drawing,
an extension that is continuous from the zenith arc and an extension
that is separate. The former may have come about because of the typical
phenomenon of drawing things longer than they actually were. Supposing
the continuation was not real (which must be true in majority, if not
all cases; in none of the six visual was gotten) such completionism may
have been unintentional – it's harder to remember things when you jot
down your impressions hours, days, weeks or months later. The latter is
harder to reconcile with this psychology. Here, if it wasn't something
that the observer actually saw (a halo or funny cloud), the other option
is intent fabrication.
Of course it is possible that at some
point a name has been so long around that it's now indifferent to
attempts of correcting wrongs. So the Kern arc may be here to stay. The
man goes by the full name of Hendrik Frederik Anton Kern, and he was 30
years old at the time of the observation. He trained as a teacher and
settled in Loenen aan de Vecht where he became the headmaster of the
primary school. He doesn't seem to have been that much of a halo man. I
have copies of all the Onweders Optische Verschijnselen halo sections
from 1896 to 1952 observations, but except for his 1895 observation, I
don't recall having seen H. F. A. Kern's name in them. But he must have
been specialized in other kinds of observations because he is listed as
one of the observers in Onweders Optische Verschijnselen 1938 issue,
which is the only digitized OOV currently available (not on a Dutch but
Indonesian institution website, mind you). Possibly he was an onweders
chaser. It would be worth perusing the full OVVs to see what kind of
stuff he reported.
But should someone prefer to start using the
Dufay arc, I see it as a legitimate name. Possibly his is the first
zenith arc extension ever reported. Which is of course an additional
merit, because, as I have already said above, naming arcs after silver
or bronze medalists is bad practice (I am brushing here of course under
the carpet the issue of common practice of naming halos after persons
who have never observed them).
Dufay probably went by the full
name of Charles-Francois de Cisternai du Fay – a scientist whose main
bread was electricity. Or would it be necessary to consider a double
name because Dufay starts his account by telling that he observed the
display with Mr. Condamine (most likely Charles Marie de La Condamine)?
Actually,
there is the option for keeping both Kern and Dufay. The Parry
orientation born zenith arc extension is different from plate born
extension in that it is not a full circle but an arc, with more than 180
degree circumference. And the Dutch theory, 136 in plate oriented
crystals, draws an arc identical to the Parry orientation born arc –
both are from raypaths in which the exit face is opposite to the
reflection face. So if the single scattering plate born extension would
be Dufay, Kern could be reserved for the special case of Parry born
extension on the basis of the theory, even if the orientation is not the
same (no other raypaths contribute to zenith arc extension in Parry
crystals). But shouldn't the arc in that case be named after its
theoretician – the Ekema arc?
For the multiple scattering version
I see Ripley-Saugier and Bravais as person name candidates, the former
for their observation in the Saskatoon display, the latter for his
theoretical genius to envision the possibility of MS extension. This is
found on page 99 in Bravais' book Memoire sur les halos. He discusses
the azimuthal span of the zenith arc and writes: "However, it may happen
that the theoretical amplitude is exceeded, and even that a complete
circle is formed: 1) because each point of the arc gives rise to the
formation of a parhelic circle, and because all these secondary parhelic
circles, by superimposing themselves, can produce an appreciable light"
("Cependant il peut arriver que l'amplitude théorique soit dépassée, et
même qu'il se forme un cercle complet: 1) parce que chaque point de
l'arc donne lieu à la formation d'un cercle parhélique, et que tous ces
cercles parhéliques secondaires, en se superposant, peuvent produire une
lumière appréciable"). Bravais also mused on the secondary parhelic
circle at 22° to explain observations like the one by J. W. Lambert
shown in the illustration. It's a certain mammoth in the room that
Bravais does not have a halo named after him. True, the zenith arc has
been called 'Bravais arc' in some writings, but I don't hear it used
today. Which I think is good because by tradition person names are for
more special halos. There is also a third MS halo that could be named
after Bravais, the 44° tangent arc, which he also wrote about in his
book.
Marko Riikonen
* in the original this reads unintelligibly "one-sidedness of the extension"
** the original credits this to F. Lebland, which is a double mistake. First, it is F. Leblanc. Second, he was not on the expedition; he was a wood engraver who prepared the printing block based on a sketch that someone had made of the display. The display appears in "Three years of Arctic service : an account of the Lady Franklin Bay Expedition of 1881-84, and the attainment of the farthest north, Vol I", written by the expedition leader Adolphus Greely.




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