With this post starts the presentation of January 12/13 night results. All the photos are from the beam. The image above is a singe frame with 30s exposure. Just basic halos there. In the gallery images the emphasis is on the column 3-5-7 which shows up in crystals of psychedelic colors. The individual frames are all 30s exposures. The lamp is the usual 5 degrees below horizon.
The night of 20/21 January came with oriented pyramid crystal halos also in the beam. The image above is the last breath of a world class odd radius display that got us completely unawares. This is the first time this winter that the odd radius stuff was visually crystal clear in the beam. Colored and solid upper and lower 9° plate arcs were seen, but if they were still present when the camera was placed in the beam, they are nevertheless washed out by the overexposure. As the lamp was at negative elevation of about 5 degrees, that makes the lower 9° plate arc the 23-6 type. The odd radii stuff was all gone in the next shot which would have had the exposure right. In this precious one one still sees the 35° halo and of the oriented pyramids the lower 20° plate arc.
We drove around and switched on the lamp here and there, stubbornly trying to get a rerun, but to no avail. Diamond dust was already on the retreat, the air was drying up even though it was around -33° C. Yet we managed to get something just before it all evaporated, as shown by the first image in the gallery. A little simulation study (second image) was necessary to see whether it was column or plate pyramid stuff, but that did not give definitive answer. The plate scenario simulations are identical except that in one is 22° halo and in the other 23°. The stuff immediately inside the 22-23° halo and the 35° stuff was noticed initially visually.
That stacking series was taken at 3:30 am. The last two photos in the gallery are the first photos of the night at 6 pm. We photographed these lunar and beam displays simultaneously. No odd radii yet at this early hour.
Marko Riikonen / Jarmo Moilanen
More halo and crystal photos from the 20/21 January night. While this second crystal sampling and photographing session was under way, the display in the beam was photographed constantly, but again odd radius halos are not visible in the photos, expect perhaps for a suggestion of 35° halo at one stage (not shown). Yet again the sample was littered with classical pyramids as shown by the images in the gallery.
The picture above is an appearance of odd radius halos after the crystal business was over with. It is a br of stack with total of 9m30s exposure and contains 9°, 18° and 35° halos. Three more halo images are in the gallery, first a single frame from the stack above, then two that are versions of another stack, the br displaying full 46° halo.
Jarmo Moilanen / Marko Riikonen
The night of January 20/21 in Rovaniemi was a night of odd radius halos. Here are shown mostly crystals collected during a half hour period. At the same time photos were taken continuously in the beam, in the gallery below is one of those stacks. The sample contained plenty of traditional type pyramids – something we have not yet seen this winter. So it is curious that odd radius halos are not conspicuous in the beam images and at times even completely absent. Maybe the abundant cavities in the crystals caused too much disturbance.
The stack is from a stage where the odd radius stuff was at its best, taken towards the end of the crystal collecting period. Visible are 9°, 18° and 35° halos. The temperature during the night was around -33° C.
Marko Riikonen / Jarmo Moilanen
On four out of last five winters Tapio Koski has photographed lunar diamond dust odd radius halos in the Rovaniemi area. These one-per-winter occurrences are almost solely responsible for lunar diamond dust odd radius displays photographed in Finland during those years. This winter we wanted take part in the tradition. Yet despite numerous odd radius displays we had harvested in the beam, those by the moon – or sun for that matter – were simply not on the offing.
Except on the night of 20/21 January, which was the month’s last diamond dust night in Rovaniemi. During the day, when driving in the city, we paid attention to Fairbanksian amber, a beautiful yellow glow in the sun direction which can be seen in cold weather and with which we became familiar on the succesful halo expedition to Fairbanks in January 1996. This gave us an omen of foreboding that a night of big odd radii diamond dust was finally on the cards for Rovaniemi. Weather forecast was with us too, as the temperature was expected to drop to -33° C – the magic number that Walt Tape has given as being in the center of the temperature range favorable for odd radii.
The display appeared as some thin water cloud that had momentarily overtaken the sky cleared away. The first halo visible was upper 23° plate arc, many others soon followed the suit. In the beam only a crappy plate dominated display was visible – the pyramid stuff was higher up.
Jarmo Moilanen / Marko Riikonen
Dreaming of the greatest displays and rarest halos? Before the change of the millennium the only advise would have been to get your ass to Antarctic interior or some high Arctic location. Not a particularly feasible solution for the majority of us. But somewhere in the early 2000 photos of impressive displays started to appear and it was soon realized they were from the snowguns. The displays that have been the privilege of high polar areas were now available right on our doorsteps. Why it took so long to find that El Dorado of halos is a bit of a mystery, because the history of snow gunning at the ski resorts dates back much earlier than that. Possibly it had something to do with the advent digital cameras, which brought much more of those occurrences to our knowledge.
The snowgun generated displays may not appear as quite often as the displays in the Antarctic interior, but I would say they are more interesting. Most of the new halos during the last two decades have been discovered from snowgun originated diamond dusts. Snowguns seem to produce special halo making crystals and the darkness of the night also enable us to use the photons of a bright spotlight to make displays. The strong contrast between the crystals lit by the spotlight and the dark background sky has made it possible to discover many halos that would be too faint to see in sun or moon light.
Snowguns make diamond dust by producing nuclei around which the crystals grow from the water vapor in the air. The guns never produce ready halo making crystals, the crystals that come from the guns look like potatoes, no halo making faces there. It is the fine invisible cloud of small ice dust that come as a side product of snow making that acts as a substrate on which crystal growth takes place.
Most of the time the guns are running you don’t have diamond dust. The air is normally too dry, below ice saturation and crystals growth is not taking place. On a very dry day you hardly even notice that the guns are on, because there is no ice cloud. That cloud begins to develop when the natural moisture of the air starts to reach ice saturation. But as long as it is below ice saturation, the diamond dust is limited near the guns – the moisture is supplied by the guns only and the crystals will evaporate short distance from the guns. Halos in this kind of diamond dust are not that impressive. Only when the natural moisture of the air exceeds ice saturation the diamond dust takes off from the snow guns and can extend anywhere between few hundred meters to, say, 20 kilometers. And then also the displays can be better.
To have these supersaturated conditions with respect to ice one needs either clear skies or low cloud or fog of liquid water that is on the same level as the guns. In the latter case the ice nuclei from the guns freezes the water droplets and produces diamond dust – one can picture it as a hole punch cloud on the ground. On rare cases diamond dust may develop also under overcast sky.
In addition to the conditions stated above, in Finland one usually needs to have pretty still air for the diamond dust development. Sure, there is usually slight air movement to some direction, but when it is clearly windy, the air is typically too dry for diamond dust. If flags or tree wigs are moving, it is too windy. Tree wigs tell also another story: if they start getting a frost cover, then the atmosphere has enough moisture for diamond dust development.
The first thing to do before you rush to the nearest ski center is to check whether the guns are on. The season may be over already. In Finland many places are done by the beginning of January, Himos in the Southern Finland makes snow probably longest, finishing at the beginning of February. In Lappland the season may be over already in some point of December. The lenght of the season depends also on the winter. This winter in Southern Finland has been very warm and guns will be running certainly for most of the January in many places.
Even if the snow making is season is on, nothing may happen at the ski center. No snow is made when it is above freezing. Some places say they start when temperature drops to -5 C. Some ski centers have automated guns that start when temperature and air relative humidity is right (too humid conditions are not favorable for snow making which contradicts with the conditions needed for diamond dust). And even if the temperature is low enough, the guns may stay quiet if there is only one night of cold between above zero weather period. Some places may have limited waters supply – the water may be supplied by an artificial lake that is drained empty in a couple of days and it takes a couple of days to fill up.
Because diamond dust halo hunter has plenty of equipment, especially when doing the lamp halos, a car is needed. I have done lamp halos successfully with a bicycle in Rovaniemi, but following the diamond dust from one place to another as it changes the location was some task. Biking is good for the health, but success is better with car.
A good ski center for halo hunter is circled by roads not too far away. The diamond dust often extends only less than, say, 1 km from the ski center. Having plenty of roads is of no help, however, if there is a never ending wall of forest all around. Open spaces are of necessity, the more the better. Open areas are especially important when you are doing the lamp halos in the night: you want the background to be dark, not a forest lit up by the lamp.
In general, you don’t want light pollution. If it is possible to choose, look for a ski center that is in the middle of nowhere, the only lights being there the ski flank lights. If you befriend with the guys running the guns, they may even shut down those lights when you are taking photos nearby. Any light bulb shining in the lamp display photos it bad.
Perseverance is of utmost importance. Do not leave the place if the diamond dust seem not to take off. Often one needs to wait hours for the the conditions develop. In Finland the midwinter darkness may last, say, from 4 pm to 7 am. You are out there from the beginning and if you give up after 8 hours at 2 am because the conditions just keep staying at the threshold, you may likely have missed a display that eventually developed at 4 or 6 am. Also, do not lose faith if it gets cloudy at some point. Unless the forecast says it is really gonna get cloudy, the cloudiness you are experiencing is most likely temporary and will pass in an hour or two. I have many times fallen to this trick. And even if it gets cloudy, the display may continue under cloudcover. Clouds that arrive can be also so low that they are nucleated to diamond dust.
Usually the conditions disappear before the sun rises. If not, then you have to be ready when sun rises. Try to get some sleep in the twilight hours, or if you think you may not be able to get up, then stay up. If the nightly display was great then probably also the day display is great. Once I was out hunting the whole night, came home at the dawn, looked at the photos and tried to sleep a little and headed out again for the sun halos. The display was an exact copy of the nighttime display and provided an interesting comparison. But then, around midday there was some change in the crystal growth and a new halo, the reflected Parry arc appeared.
You hunt for the fun of it and you want photos. Getting photos is not always straightforward, though. Diamond dust can be anything from quite stagnant to very moving. The former is of course the optimum for halo hunter. At its best, the diamond dust can stay in one location for the whole night. You have all the time to set up the camera and lamp. The area where the display is best developed may be really narrow: move 100 meters any direction and the display starts to weaken.
At its worst the diamond dust is on constant move, the slight breeze is shifting direction all the time. Just when you get your tripod and lamp set, the action is gone. You pack the things, get into your car and try to figure out where it moved. Once you find it, the choreography may be repeated. This hardship is further compounded by all kinds of hassle with the equipment. The ways things can go wrong in the dark and cold are but many. Sometimes you may not get photos at all or just a couple of crappy shots. Interestingly, I found that things were easier when I was hunting with the bike. You have to be better organized with bike. And you are outdoors all the time, being one with the winter. It is just easier to get set up when the time calls.
So, that’s it. I may continue this story later on if I remember something that needs to be said. In a meanwhile, you may also read the short post about the same issue from 2010. The next post will be about how to do the lamp halos.
So you want see all known halos? Then here is a list of the work ahead. As of now, there are 75 halos to catch and if we count also the components as separate halos then we have 94 halos. From the point of view of halo spotting, components are of course counted as separate entities. For example, 23° plate arc divides in upper and lower components, of which the lower component – although not necessarily rare as such – is nevertheless thus far exceedingly rarely observed.
We can add also to the numbers above the halos that appear solely on the snow surface. By doing that we have 77 / 96 halos. Notice that in the table there are also components (and one halo) that have not yet been observed in nature. These theoretical halos have not been included in the numbers above. More on these below.
For each halo in the table there is a frequency estimate. The table is for Finland and it is certainly not applicable to tropics, High Arctic or Antarctic. Even in the Middle Europe the frequencies seem to be different for some halos. Sure, the maximum sun and moon elevation encountered at different locations on Earth is of course a factor that affects the frequencies of some halos (for example, circumhorizon arc can not be seen in Finland because sun or moon never rises high enough) but mainly I am talking here of the differences that are caused by the properties or visibility of ice clouds.
The frequencies in the table are mostly given as a plain number (140, 7, 0.1, etc) indicating on how many days (sun) and nights (moon) a year the can halo be seen (surface or lamp light occurrences are not counted in these numbers). Or it is given as description (common, rare, etc) or a number of known observations (1 obs., ~10 obs. etc).
The plain number assumes a stationary observer who observers visually with a convex mirror never stacking any photos and never hunting the diamond dust halos from the snow guns. This observer won’t see the additional rare halos in his photos that the stacking brings or experience the great diamond dust displays with some truly rare halos.
The descriptive estimate is for halos that have been only seen from an airplane or in diamond dust. It tells how common a certain halo is under these observing circumstances. Seeing them depends almost solely on how much one flies and hunts halos in the snow gun generated diamond dusts. If you do neither, you probably never see these halos. The subhorizon halos are easy to catch in diamond dust with a bright spotlight placed below horizon. This turns the halo sky upside down with subhorizon halos now visible above horizon.
For halos for which only very few observations are known, no estimate of the occurrence is made – instead given is the number of observations. I have used this when the number of observations does not exceed 10. Of course I may not know all the observations and there can be also differing opinions about some observations.
For some halos in the table – mostly components – there is no frequency estimate or number of observations. These are as of yet unobserved. Many of them probably stay that way, but nevertheless from these it is possible to find some prospects for discoveries. Often though, it seems, a new halo something totally unexpected – something for which the halo theory has been totally blind.
Naming of halos is an issue itself. For the well known halos I have followed a common practice. For the odd radius halos I have chosen the nomenclature used by Tape and Moilanen in their book. Then there are halos which have not been baptized in English yet. These are halos that have been discovered recently. In such cases I have given the Finnish name if such exists – the very latest finds are still unnamed. I will complement the table on these later on.
Some notes are given in the last column of the table. Halos that have been observed only in diamond dust and / or from airplane have been indicated, the “dd” meaning diamond dust. If there is a blank in the notes column for certain halo, it means it has been observed from the ground in ice clouds higher than diamond dust. For some halos, in addition to “dd” there is also “hc”. This means that the halo is most likely in diamond dust, but has been documented also in high clouds. “”Lamp” tells that the halo has been observed with a bright spotlight – if no other light source is indicated, then this is the only method of observation. “Stacked” in the notes is to tell that the halo has been detected only from stacked images in certain situations, like in case of high clouds.
I emphasize again that the plain frequency numbers don’t count the great diamond dusts from the snow guns. An observer who never hunts in these diamond dusts may never see some rare halos, such as the subanthelic arc or 44° parhelion. Also the numbers don’t count what additional halos would appear in photos if stacking is employed. Many halos become much more common when photos are stacked. For example one can expect to see 35° halo visually in high clouds perhaps once or twice in 10 years, but with stacking it can be detected in odd radius displays at least once a year. Likewise, pyramid helic arc in high clouds is almost impossible to see visually, but stacking can bring it into light in displays with strong 23° plate arc.
Next I should write presentations of all these halos, because for many of them there is not really information in the internet. But that would be a huge job.