![]() ![]() ![]() From the fjords of Norway to the mountains of Sweden, from the lakes and forests of Finland to the countless geological features of Iceland, these landscapes are rarely better than when they are bathed in the 24 hour daylight of the summer months. Having said that, there is so much to see and do in Northern Scandinavia that 24 hours of daylight is actually rather welcome. To see the Northern Lights you need dark skies and from early-April until late-August, the Aurora may be blazing across the Arctic firmament but it is visible only to scientific equipment, as the skies are just too light for the human eye to see the show. View Holidays Next: April to August April to August The daylight hours will be stretching out by then so you’ll have to be prepared for some late nights but this can be a very rewarding time of year in The Auroral Zone. Combine this with slightly warmer temperatures and improving weather (with the possibility of less cloud cover) and you may feel compelled to go Aurora hunting in late-March or very early April. There is some speculation that the spring and autumn Equinoxes (around 20 March and 20 September) bring greater solar activity. A thick, pristine layer of snow covers the ground and, because most of the winter snow has fallen, it could be said that there are less snow clouds overhead to obscure the Aurora. Generally speaking, February sees the weather slowly improving and in March, the temperatures begin to rise although it can still get pretty nippy especially at night. Nevertheless, it is sometimes said that the Aurora is more likely to appear on colder nights so perhaps we could recommend January to hardier souls. In the Arctic, January is a time of renewal as the sun reappears above the horizon but it can be very, very cold indeed. These are probably the three most popular months for Aurora hunting because they bring long dark nights and plenty of snow to play in during the daylight hours while you wait for darkness to fall. This means the images captured are generally a lot more colourful than what we see with the naked eye. A digital camera can take a long single image exposure of the Aurora and therefore capture a lot more data in the darkness, much more than our eyes capture. When observing the Aurora with your naked eye, the colours will differ slightly from the image that a digital camera captures. ![]() Different gases prevail at different altitudes and in varying concentrations and it is the collision which “excites” these gases that determines the colour of the Aurora. The main factor in determining the colours of any given display is the altitude at which the solar particles collide with gases in our atmosphere. ![]() There is further research to suggest that more significant solar events occur in the declining period following Solar Maximum which increases your odds of seeing a display from our destinations. Generally speaking, the Aurora Borealis will remain very active for two to three years either side of Solar Maximum which effectively means we’re heading into the period of maximum activity. The Northern Lights are more prevalent during Solar Maximum, the last of which occurred in June 2014. Our Sun goes through an activity cycle that lasts approximately 11 years and sees it pass through Solar Maximum (highest solar activity) and Solar Minimum (lowest solar activity). The Solar Cycle - Solar Maximum/Solar Minimum ![]()
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