First of all I must begin with the fact, that 2017 was a disappointing year so far in terms ISS close up imaging. Whenever I had time and had bright overhead passes, weather treated me poorly, never really helping me to achieve my plans.
Especially now, when finally I have a good equipment for this particularly special area of photography - a Skywatcher 250/1200 Flextube telescope on a dobsonian platform. Also I got rid of my color ASI12MC camera, instead I use the mono 120MM version with filters, particularly red filter for ISS.
But eventually the heavens opened up for London in the past few day, warm temperatures and absolutely perfect clear sky was our present after all the bad weather.
So I decided to do an ISS marathon - at least a few attempts on high magnification ISS imaging. Due work I couldn't stay up till morning, so I did the ones around midnight.
I had one over head pass on the 25th May 2017 at 11:15 pm which was at 64 degrees of elevation at its highest point, this was the period when the station was relatively at closest to me. The result was pleasing, despite the odd angle the Sun illuminated ISS - basically pretty much from sideways.
I managed to identify a few little details on the station, such as the Cupola, BEAM (Bigelow Expandable Activity Module) and the Canadarm 2 robotic arm. To be honest my main goal was Cygnus-7, I've marked its position but I'm not entirely convinced if visible.
Before ISS pass I collected a few frames of Jupiter through Zwo Red filter |
The second attempt happened on 27th May 2017 at 0:36 am, similar pass at 68 degrees of elevation, ended up nearly with the same photo, slightly more blurrier than the first attempt. Probably it is less overexposed, Leonardo module, Cupola and BEAM are less bright so easier to identify. I wanted to catch a much higher over head pass too, but I found a better challenge and chose that instead...
Comparison of the two shots taken at nearly same circumstances |
Because not too far from my location there was the ISS Jupiter transit opportunity. The gas giant was nearly 34 degrees above horizon, the predicted transit time was at 10:22pm when the International Space Station was roughly 700km from my location.
Probably the toughest task was to make the decision about camera settings. Only rarely happens, that the current visual magnitude of ISS (at the exact time of transit) matches the other object's visual magnitude. This one wasn't one of those rare occasions sadly, the station was so much brighter (even if it doesn't seem to be a massive magnitude difference), that I couldn't avoid slight overexposure. But this seemed to be the borderline based on experience from previous night. So in Fire Capture I set expo to a value of 0.88 ms time and gain for 55.
First here is a time lapse video taken with my dslr (Canon 600D and a Samyang 8mm fisheye lens). I have to say it was tremendous fun to see ISS rising and approaching fast toward Jupiter. The transit seemed so unlikely at first sight, but the prediction was (obviously) correct and eventually took the right direction. I tried to watch the event with naked eye and also keep an eye on the laptop screen too.
ISS near Jupiter pass |
The gif above shows the actual close pass. It is a real shame, that I couldn't find a place on the centreline, this could have been a nice ISS transit - I mean as good as it can be from UK at this relatively low elevation.
Mind this is approximately the real speed of the event. I never work with the raw video directly, instead usually brake the video down into frames and after post processing those frames, I make a gif from them. This way I can enhance the frames slightly, getting rid of some noise if possible and make all the necessary general improvement (contrast, brightness, etc.).
My scope has 1200mm of focal length (FL), which usually isn't the best magnification for close ups so I use a 2.5x Televue powermate to get the right magnification level. But due my inaccurate position from centreline, I did't want to risk missing ISS completely. Therefore barlow option ignored and went for prime focus instead. This way I could avoid any failure - believe me there is nothing more frustrating than missing ISS because your field of view is too little. It happened to me at a few lunar and solar ISS transit, so kind of learned my lesson.
Composite photo of the near pass |
And finally here is a funny shot, another composite from the time lapse. Playing wizard with ISS wasn't planned at all. At home I was laughing out loud , when I discovered the possibility of a cool composite shot.
So do you like my ISS laser pointer? :D |