Found by slewing to κ Ophiuchi and reducing declination. Pretty bright, AV is not necessary but seems to help accentuate the core more than the periphery.
[2] ../images/2022-7-17_M10.jpg
Appears to be more dim than M10. Despite this, it's overall shape seems to be more apparent and distinct. I'm seeing a defined 'cone' or 'triangle' shape to this cluster.
[2] ../images/2022-7-17_M12.jpg
Found by increasing RA from M12 and using star patterns to verify my location. Smaller and more dim than the other two, AV isn't required but also isn't doing much to pull more detail from this cluster.
[2] ../images/2022-7-17_M14.jpg
So hard to see, AV is required. After some time, the elongation and size became more apparent. After even more time, I began to see a brighter 'streak', made by pin-points of light that cut straight through the oval long-wise. This may have been the most detail I've been able to get out of a difficult DSO!
Was my first night not calibrating to Polaris prior to viewing. I positioned in a different location in the backyard to get a better view of the southern hemisphere. From this new location, Polaris was completely obstructed by one of our ash trees. I attempted a 'rough' alignment by pointing north and to 44° degrees latitude and it turned out better than expected. I was worried that my RA and DEC movements when star-hopping would be less predictable, but they were still close enough to be effective. Not having to rely on Polaris every session will open up more possibilities of viewing angles from my yard! Also noticed that I was able to make out some of the strip of the Milky Way from my backyard, now that I know what I'm looking for.