Stars at Sugar Hill Reservoir
Milky Way, Farm Barn, Shelburne Farms, VT
Making the Milky Way, Farm Barn Image
My recent image of the Milky Way over the Farm Barn is one more step on a journey of learning how to capture images of the night sky, and including terrestrial landscape elements. The climb has been steep – and I have a long long way to go – but the Farm Barn image combined everything that I currently know about this type of image making.
My first step in shooting the image was timing around a new moon to ensure I had a dark sky. I then used the PhotoPills app on my iPhone to digitally scout where the Milky Way would be throughout the night.
After tucking the family in for bed I grabbed some snacks and my gear, then setup at Shelburne Farms. We have been long time members, and our girls have gone to a school that shares space in the spectacular Farm Barn – so I am familiar with the grounds – hiking all seasons, photographing the sunrise, wandering with the kids before and after school, and enjoying the Harvest Festival and other events.
Once on site I let my eyes adjust to the night sky and then set up my camera gear. I brought a small camping tarp with me so I spread it out on the ground to unpack and sort gear. I can then fold the tarp in half over my backpack and gear to keep things from getting wet from the dew or the ground. I then launched the PhotoPills AR feature and walked around a bit to get a good alignment with the foreground and the sky. Once in the general spot I set up my gear.
The tripod goes up first, followed by a Vixen Polarie sky tracker. The tracker is a small device that rotates the camera mount at the same speed the earth is spinning under the sky. This allows longer exposures of the stars without elongation or trailing. I align the sky tracker with a compass, then adjust for the latitude I am taking the photos, and finally by eyeing Polaris in a tiny alignment hole. In some cases where I can’t see to the north I use my phone with an astronomy app running – I will search for Polaris in the app and then hold the phone on the body of the tracker to make sure I am close with my compass and latitude alignment. I will eventually get the polar scope for the device which allows very accurate alignment with longer focal lengths – but for wide angle shots I have been having good luck using just the eye hole and compass method.
Once setup I took a few test images. To focus on the stars I carry a small loupe for inspecting film or slides and use the live view screen on my camera. I manually focus on a bright star and take a few 5 second images at ISO 1600, f/2 to double check. Once I have the static focus set I turn on the tracker and take a few images at 30 seconds to make sure my alignment is set correctly and I am not getting any elongation as the Earth rotates. After verifying focus I take a few exposures at the full length I am planning for a triple check of focus, alignment, and settings. By the time I was setup I realized that when I finished my sequence – which would take over an hour to capture – the stars would have moved a bit more than I thought – so I ended up moving my tripod setup (twice) to get the framing with the tower on the Farm Barn I wanted. After each move I realigned to Polaris, and then verified with a 30s image that I did not have star elongation or wobble.
The final image is a composite of 32 images for the sky, and 2 images for the foreground. The 32 images taken for the sky include 4 images from 8 distinct camera positions. Each sky image was taken at 35mm, f/2, ISO 800 for 45 seconds. The foreground images were taken at 35mm, f/2, ISO 800 for 45 seconds. The whole sequence took about an hour to capture – but as I was shooting my last frame of the barn the O’Bread bakers arrived and turned on the lights! Unable to finish the last frame of the foreground I had to re-shoot the barn, and was worried about handling the bright lights when I combined the images.
Once home, after some sleep, I imported everything into Lightroom and did some basic processing – lens corrections, minor contrast and highlight adjustments. I also geo-located the files and tagged each image in my library. From there I exported each of the 8 camera positions for the sky into a folder as TIFF files and then aligned and combined these images using Starry Landscape Stacker. Starry Landscape Stacker aligns the stars in the sky portion of the image while disregarding the ground, and then stacks the images atop one another. After stacking you can then perform calculations and imaging functions – mean, max, median, etc. – I used the median algorithm to knock down some of the noise inherent in taking longer exposures at night. The stacked images are then exported to TIFF, then brought into AutoPano Giga for stitching into a mosaic / panorama. I’ve used Hugin (free) and PTGui Pro, as well as the built in tools within Photoshop and Lightroom – but I’ve been having the most luck with AutoPano Giga recently – so I have been practicing with it on most of my images.
The panorama software has a ton of features including masking control (moving objects), setting a projection (spherical, mercator, cylindrical, etc), exposure controls, etc. – I adjusted the projection to mercator, leveled the image a bit, and cropped to the extents of the frames I captured. Upon seeing the preview I wish I had captured 1 more location in the sky – as the stars move I need to remember to overcompensate a bit when including a static landscape.
Once aligned I exported the final sky image as a 16 bit TIFF file and then re-imported it into Lightroom.
I repeated the stitching process with my foreground images, then edited out the sky in Photoshop and imported it back into Lightroom.
I then open both the background and the foreground in Photoshop as layers. My first step is to stretch the sky to bring out the Milky Way. The camera captures an amazing amount of light – much of it subtle – so it requires some stretching to bring out the detail of the Milky Way above any light pollution or sky glow. Thankfully we have (relatively) dark skies for the east coast when pointing away from major towns and cities, and the night I captured this image we had especially great seeing – Mt. Washington reported 100 mile views at sunset. To bring out the Milky Way detail and maintain reasonable color accuracy I use Roger Clark’s website as a starting point – I try to maintain Daylight White Balance and I stretch the background using a Curves Adjustment layer tweaking the Red, Green, and Blue channels of the image.
When happy with the background I worked on aligning the foreground image over the blurred and distorted portion of the landscape. This required some subtle scaling and perspective warping of the foreground image to match the projection used for the background, and then some cloning and healing to the background image to remove the drift and the blur that happens during alignment of the tracked sky. Once I had these cleaned up I did some dodging and burning of the tree line to get them to blend to the sky and look natural – this part of the process – the compositing and blending in of the foreground – is the hardest part for me and where I need to pick up more skills. I did several versions of this image before I was happy.
Once I get the foreground and background where I like them in Ps I save them back into Lr and do some final tweaking and adjusting – playing with the saturation, adjusting the shadows and brightness, and healing or cloning out any dead pixels or anomalies – in this case here were a few orange construction cones from concert parking on the lawn in front of the barn that I cloned out. I also blended the color and saturation of the foreground portion of the image – the very bright lights were taken down a bit, and the red glow from the exit signs was tweaked. Once satisfied I cropped in a tall and short version, double checked my tags in the library, and exported for the web. The original image is 6430 pixels wide and 9476 pixels tall, which should print as large as 26 inches wide by 39.5″ tall depending on the medium and the assumed viewing distance.
Lake Lila, Milky Way
Lake Lila in the center of the Adirondacks is a special place to me – I first visited with Greg back in 2001 – we slept on a rock outcropping the first night and then rented kayaks to explore the lake and camp on the far side. Several canoe trips with friends and family followed – always amazing, inspiring, and peaceful.
I had a chance to visit a month ago, when nearby to photograph a timber frame under the stars.
After a long night photographing the bandstand, and a Saturday afternoon working from the Hotel Saranac I drove into Long Lake for a few supplies and then headed to the access road. I did not bring a canoe or kayak, nor tent.
My plan was to walk in along the trail / gated access road to Mt. Frederica and find a good beach or rock outcropping that faced roughly south – southwest. I had a few pins on my GPS, but would need to find a spot in daylight so I could be safe, have room to work, and make sure I had a good view of the Milky Way once it was above the horizon. I walked about 2 miles on the way in, nearly to the end of the lake before backtracking. I spotted a nice beach but it was already occupied by a couple in a canoe, and then bushwhacked to a lovely beach where I found campsite #5, unoccupied.
I use a few different planning apps for night sky and golden hour / blue hour photography – PhotoPills and The Photographer’s Ephemeris are my two most used – but I also check terrain with Google Earth and trails with Ride With GPS or Open Street Map. In the case of Lake Lila I also double checked the map from the NY DEC. All of these combined let me plan my imaging session, and after arriving at the beach I used PhotoPills and the AR function to overlay the night sky on the scene.
I carried in my camera gear, a ground tarp, camp chair, summer sleeping bag, extra layers (not enough!) some snacks, and water. I could have really used an extra layer or two and bug spray and a headset.
I set my tarp on the ground and spread out my gear. Tripod was leveled and I moved some large rocks from the edge of the lake to keep me from mashing it into the sand. I then aligned the Vixen Polarie – which is a little device that can rotate a camera at the same speed as the earth under the stars. This needs to be aligned with the North Star – I use a compass and latitude angle gauge, and SkyWalk2 app on my phone to get it close while the sun was still up. After dark I sighted through the alignment hole and centered Polaris.
After setting up I enjoyed the show of the sun setting, blue hour, and the sky changing.
Golden hour was sublime. The lake calmed, and the color from the sunset (out of view) brought out a nice compliment of the cool water and sky to the trees and rock.
Twilight brought the first stars, and I took a few test shots to make sure focus was set properly and my tracker was aligned to Polaris.
And then I waited. The bugs were fierce and I got cold. I snacked, set an alarm for when the Milky Way would be close to the proper position in case I dozed off, tidied gear, watched the bats, listened to the loons, and waited, and waited. I saw my first glimpse of the Milky Way around 11:20 pm. I took a few more test shots to review.
And then I waited a bit more. At about 12:45 I started my imaging sequence – this is a multi shot panorama of the sky – and I took two 2 minute exposures from the each camera position to stack for noise. All in the final image took over an hour and a half to capture, and is a combination of 27 images – 24 for the sky and 3 for the foreground. The foreground was shot without my sky tracker running, and composited into the image after processing and stitching the background to cover the trees and hills in the distance that were blurred due to the movement of the tracker.
After capturing the images I packed up and walked the 1.5 miles back to the car, took a short nap in the hatchback, made the 8:30 ferry at Essex, NY and was back in VT for breakfast at one of my favorite cafes.
Star Trails, Timber Frame
I was asked by New Energy Works to scope out one of their latest timber frame projects in the Adirondacks and see if it would be a good candidate for combing my passions of night sky photography and timber framing.
The frame isn’t quite finished – it is a band stand in a community park – but I made the best of the existing conditions to create this image – 113 frames blended in Photoshop take from a fixed tripod as the Earth slowly rotated under the stars.
Milky Way, Sugar Hill Reservoir, Vermont
Tracked Milky Way
Milky Way, Sugar Hill Reservoir, Vermont
A learning curve, for sure. This mosaic / panorama is 120 images, 4 shots each from 30 camera positions. Each image has been stacked on top of each other and aligned to mean out some of the noise of shooting ISO 1600 for 30 seconds each shot. It took well over an hour to shoot the 30 camera positions – 4 shots, move, shoot 4 shots, etc., including shots I dod not use at the edges for overlap. As I was operating and moving the camera those wispy clouds were moving though the scene, which added quite a wrinkle to processing.
After stacking the images I stitched 30 of the composites into this image with AutoPano Giga, then processed in Lightroom to edit for color, brightness, and noise.
I made this with my little Canon M6 with the EFM 22 f/2 lens @ f2.8 for 30 seconds each frame, ISO 1600. The camera mounted to a Pano / Nodal head atop a Vixen Polarie star tracker which points at the north star and rotates at the same speed as the stars. The full size, original image is 10,343 pixels wide x 12,929 pixels tall.
Milky Way
I worked a bit more on the images I captured Monday morning. I went through the process of stacking what I had captured, then stitching and attempting to hand color / balance the frames that were captured well into astronomical twilight – the time when the sun is starting to light the dome of the sky and everything changes so quickly…
I learn so much by doing – so I need to keep doing, making, creating. And failing.
Imagine, Create, Fail, Learn, Repeat
Humbling, to capture the night sky. This whole process is a work in progress for me. So much going on, I need to backtrack and break it down one piece at a time. Stars move. It is dark, but there are shadows. Focus is hard to get right on pinpoint bits or light millions and millions of miles away. ISO, Aperture, tracking, alignment – so many moving pieces.
So much wrong, but so good to get out and give this a try. Couldn’t sleep last night, so I grabbed the camera and gear and went off to one of 2 sites I had in mind. Didn’t like #1 and went to this alternate. Not ideal, the core was behind the ridge, but relatively dark.
Tracking, panorama, changing light, moving stars, hard to process, and I saw a bear.
The color all over – light pollution, and then by the time I shot the last panel the sky was changing over to blue. Processed by the seat of my pants just to get it done and out of my system, so I can learn and move on to the next one.
The foreground is a blur as I was tracking and did not have time to shoot a static foreground – sky changed, I needed to get home to prep kids for school, and I was frozen.
Canon M6 with EF-M 22 on Vixen Polarie tracker, lined up via compass and through the eye hole.
90s exposures, 4 in each position hoping to stack them – but I haven’t done that yet.
I should have stepped down to 2.8 from 2.5 to control distortion at the edges of the lens. Next time.
And, next time I’ll use the RRS pano / nodal setup to make overlap and alignment easier. Eyeball overlap in the dark is really hard to get right – lots of wasted pixels this morning.
Imagine, create, fail, learn, repeat.
Its not a great astro image, but its mine, and it is another stepping stone.