C/2014 Q2 (Lovejoy) on Jan 28, 2015, 03:00 UT. 12×180 sec @ ISO 1600, TV-85 at F/5.6, IDAS-LPS & Lumicon Deep Sky filters, Canon T3 DSLR.Comparison with image taken the day before to see what the tail has done in 24 hrs time.
My prediction that the tail of Comet Lovejoy would display a structure seen 9 days before the date of this image has failed. There is no resemblance to the appearance of the comet from 9 days before and the comet actually exhibits features I have not seen before.
Very strong moonlight hindered getting good images. The moon was just past first quarter and was right below the comet. I guess I’m lucky to get what I got. I’m still investigating the rotation aspect of the tail structures and why it appears to take 9 days to complete one revolution.
Asteroid 2004 BL86 encounters M44, The Beehive Cluster on the night of Jan 26/27th, 2015.Asteroid 2004 BL86 Encounters M44. Jan 27, 2015. 33×120 sec @ ISO 3200, TV-85 at F?5.6, IDAS-LPS & Lumicon Deep Sky filters, Canon T3.
I was shooting Comet Lovejoy and this event was going down before midnight, so I slewed over and caught some images of it.
C/2014 Q2 (Lovejoy) on Jan 27, 2015, 01:17 UT. 31×120 sec @ ISO 3200, TV-85 at F/5.6, IDAS-LPS, Lumicon Deep Sky filter, Canon T3 DSLR.
With the moon only a few degrees away in the sky and just past 1st quarter, imaging Comet Lovejoy Q2 was iffy at best. Well, I did it anyway and here are the results. Since the comet is relatively bright, it can be imaged with the right filters and exposure.
Comet Lovejoy Q2 on Jan 25, 2015, 00:43 UT to 03:49 UT. 3 frame animation shows how the angle that the tail subtends is closing as the comet rotates and the incidence angle of our line of sight changes.
More evidence that the comet is rotating or spinning around an axis. This is just over 3 hrs of time and the angle of rotation in that time looks to be about 5 degrees. So, if we take 360 degrees and divide by 5 degrees we get 72, which is how many 3 hr periods to total one rotation. 72 times 3 hrs = 216 hours total time for 1 rotation. 216 divided by 24 hrs = 9 days. Bingo!
Comet Lovejoy, Jan 25, 2015, 02:25 UT. 34×120 sec @ ISO 3200 and 6×480 sec @ ISO 800, TV-85 at F/5.6, IDAS-LPS, Canon T3.Comet Lovejoy, Jan 25, 2015, 01:00 UT. 31×120 sec @ ISO 3200, TV-85 at F/5.6, IDAS-LPS, Canon T3. (Version 2)
This image should correspond to my image from Jan 16th, 2015 (UT.) The resemblance is striking, especially the head area. However, it does look like this one has just a little less width and therefore is turned at slightly more of an angle than the one from Jan 16th.
Comet Lovejoy Rotation – Jan 19th, 20th and 21st, 2015. Images are roughly 24 hrs apart. It appears to go through about a third of a revolution in 3 days. So, is it roughly 9 days for it to return to the same orientation?
Well, well… the comet is spinning. Possible revolution of about 9 days. Then, the same features should show up again and again in a repeating pattern every 9 days. Well, let’s take a look, then:
If we go back in time 9 days to January 10th, 2015 UT, images of the comet should look similar to the 1st image in my animation. So, I went to Spaceweather’s Comet Gallery and found these images from the day in question. Here is a partial list:
There you go. Almost exact matches. The comet changes but it also doesn’t. It repeats a pattern because it is rotating. We see the same tail structures every 9 days, at least in this part of the apparition. On Tuesday, Jan 27th, 2015 CST (Wed Jan 28th, UT, ) the comet should present the same structures again as in my 1st image.
Unfortunately, the Moon will be just past 1st quarter and just to the southeast of Comet Lovejoy, so getting enough detail of the dim tail features will be difficult. I might try my Lumicon Deep Sky filter on it with the Canon 200mm F/2.8 telephoto to see if that blocks some of the moonlight.
Comet Lovejoy on Jan 21, 2015, 01:36 UT. 63×120 sec @ ISO 3200, TV-85 at F/5.6, IDAS-LPS, Canon T3 (StarFreeze Version.)Comet Lovejoy on Jan 21, 2015, 01:36 UT. 63×120 sec @ ISO 3200, TV-85 at F/5.6, IDAS-LPS, Canon T3.
The last image I took of Comet Lovejoy before the weather changed and it clouded up and rained. There is a moon out now and the window to image Comet Lovejoy will get smaller and smaller as the rest of the month progresses.
Comet Lovejoy Q2 & The Pleiades. 16×480 sec @ ISO 1600, Canon 18-55mm Telephoto at 55mm, F/5.6,, Lumicon Deep Sky Filter, modified Canon XS. Dark version.omet Lovejoy Q2 & The Pleiades. 16×480 sec @ ISO 1600, Canon 18-55mm Telephoto at 55mm, F/5.6,, Lumicon Deep Sky Filter, modified Canon XS. Lighter version.
The Canon kit lens that came with my camera sat unused for so long, I figured I should at least test it a bit for astro use. This is the second time I used it. But, no matter how hard I tried, the focus was never very good and I had to repair the misshapen stars in Photoshop.
C/2014 Q2 (Lovejoy) on Jan 20, 2015, 01:02 UT. 69×120 sec @ ISO 3200, TV-85 @ F/5.6, IDAS-LPS, Canon T3 DSLR.
Continuing to track the evolving tail structure of Comet Lovejoy Q2. Compare it to the image from the previous night and you might notice that it rotated into a “flatter” configuration with respect to the Earth instead of the tail actually changing shape that drastically.
Comet Lovejoy Q2 on Jan 19, 2015, 00:57 UT. 63×120 sec @ ISO 3200, TV-85 at F/5.6, IDAS-LPS, Canon T3.
Here’s the best image so far from my efforts to image C/2015 Q2 (Lovejoy). I was shooting it simultaneously with a 200mm telephoto that was mounted above the Televue TV-85 APO imaging refractor.
Images of Comets, Nebulae, Galaxies and Star Clusters
