This interesting artical was written by Ian Norman of Lonely Speck, and is used under the Creative Commons Attribution-Non-Commercial-Share-Alike 4.0 International License. If you want to photograph the Milky Way, the first thing you’ll need to know is how to find it. In this article, I share some of my favorite tools and tips for finding the Milky Way’s galactic plane and more specifically, the bright galactic center. Using either smartphone apps or by memorizing important constellations, you’ll be able to find the Milky Way with or without the use of technology.
I remember my first failed attempts at trying to shoot the Milky Way, and I recall one of the most basic and obvious challenges: I didn’t even know where to point my camera. One of the most important factors that contributes to the visibility of the Milky Way is the time of observation. It moves across the sky throughout the course of the night and the position of the Milky Way will differ depending on the time of year.
Still today, I receive the occasional email from a reader asking for help with finding the Milky Way or from photographers who have set out on their first excursion in the dark only to find that the bright galactic center, the part of the sky we all expect to see when trying to shoot the Milky Way, was not visible at that particular time of year. As it turns out, the night sky has seasons.
The best times to observe the bright galactic center of the Milky Way, in any part of the world, tends to be from about mid-March through mid-October, the “Milky Way Season,” as I and many of my fellow astrophotographers have started calling it. Technically, you can see some part of the Milky Way at any time of the year, but when shooting in the time period from September through April, you’ll be limited to the dimmer parts of the night sky as the Sun obscures the bright galactic center.
Similarly, where you’re located in the world will determine where the Milky Way will be in the sky. In the northern hemisphere, the galactic center is visible in the southern half of the sky while in the southern hemisphere, it can be positioned directly overhead, particularly in the peak of the “Milky Way Season” around the time of the June Solstice. Most of my photographs are made in the Northern Hemisphere so the Galactic center never rises too far above the horizon.
When you embrace astrophotography as your hobby and you really want to produce the best results possible, the thing on your mind most often is not what lens to use or what camera to buy, it’s the awareness of where we are in the astronomical sense: the position of the Earth and the Moon and the Sun as we slowly dance in the heavens. With some practice and observation, it’s possible to track the motions of the heavens and use it to help plan your astrophotography excursions.
I’d like to share with you some of my favorite tools and tips for finding the Milky Way’s galactic plane and more specifically, the bright galactic center. Below are my absolute favorite smartphone apps and computer software for finding the Milky Way, as well as techniques for locating it without technology.
These apps are my absolute favorite tools for finding the Milky Way. I’ve searched high and low and these are the best in my honest opinion. There are many free apps available that try to do the same thing but I’ve not yet found a free one that really excels like these do.
PhotoPills for iOS is a standout application for all types of photography planning. Most notable for night photography is its augmented reality mode and 2D Milky Way planner, both of which are unique to PhotoPills. The 2D Milky Way Planner in particular will allow you to simulate the arch of the galactic plane as an overlay on top of a map. I like this feature in particular because it makes it easy to plan your shooting position in order to align your landscape with the Milky Way. No other app has this tool and for that reason I think PhotoPills is arguably the best overall Milky Way planning app. The PhotoPills team has also put together an extensive guide for planning and photographing the Milky Way that complements a lot of the content available here on Lonely Speck.
I have a particular preference for SkyGuide because it has the most photorealistic representation of the night sky. It was made by an amazing guy: Nick Risinger, creator of skysurvey.org. Nick traveled to two different corners of the globe to capture more than 30,000 exposures to create the most complete and detailed mosaic of our night sky. That mosaic is fully represented in Nick’s SkyGuide iOS app and that makes it one of my favorite apps. It allows you to orient your phone to see where the galactic plane will be.
Unfortunately, neither PhotoPills nor SkyGuide are available for Android. That said, Stellarium Mobile, which is a commercial port of my favorite planetarium software for the computer (stellarium.org), is the absolute best app available on the Android Platform. It too uses the skysurvey.org mosaic for representing the Milky Way but it’s lower resolution than the graphics available in SkyGuide. One trick if you’re using Stellarium Mobile: open the “Advanced” settings and turn the Milky Way brightness up to about 7. Just like the PhotoPills Augmented Reality mode and SkyGuide, Stellarium Mobile can use your phone’s compass and accelerometers to allow you to see where the Milky Way will be as you reorient your phone. Stellarium Mobile is also available for iOS, but again I prefer SkyGuide for iOS devices.
Last but certainly not least in my list of tools for finding the Milky Way is Stellarium.org. It’s an open source desktop computer app available for free on Mac, Linux and Windows. It’s the core application that Stellarium Mobile is based on and it’s my personal favorite app for planning on the computer.
It’s kind of a weird thing to write about how to find the Milky Way because we’re technically in the Milky Way galaxy. Every star that you can see in the night sky is technically part of the Milky Way so when I say “How to find the Milky Way,” what I actually mean is “How to find the Milky Way Galactic Plane” or even more specifically, how to find the Milky Way Galactic Center. To start, let’s take a look at one of my most recent photographs of the Milky Way:
That really bright part of the Milky Way? That’s the galactic center, the bright glowing core of our galaxy about which our entire solar system revolves. Our sun moves around the core of our galaxy at an estimated one revolution per every 240 million years. In this image, the galactic plane extends vertically out of the frame. On any dark night, in pretty much any part of the world, it’s almost always possible to see a portion of the galactic plane at some moment of the night. The galactic plane can be found arching across some portion of the sky. Usually the plane of the galaxy is where most of the stars will be visible in the night sky. That’s the part of the sky that we’ll want to photograph.
Now if you’re in a dark enough place, the Milky Way should already be visible to the naked eye (though not as obvious as it appears in a long-exposure photo). That said, there are some particularly important constellations to remember so you know what to expect depending on where you point your camera. There are many constellations that can be found along the galactic plane, but these six will help you find the best photographic results. If you learn to recognize these constellations, you’ll have no trouble finding the plane of the Milky Way, even in light polluted conditions when the position of the Milky Way may not be obvious. At least one of these constellations should be visible on any given night, and they tend to be the easiest to learn how to find.
Scorpius is probably my favorite constellation in the night sky. It’s specifically characterized by the bright star Antares, also know as “The Heart of the Scorpion” and is accompanied by an arc of stars that form the body of the scorpion-shaped constellation. Antares is notable as one of the brightest stars in the sky and it has a distinctly orange-yellow color which makes it stand out from many of the other stars. The colorful stars and dark dust clouds surrounding Antares are collectively known as the Rho Ophiuchi Cloud Complex.
Sagittarius is situated almost exactly at the brightest part of the Milky Way. Since that part of the sky is particularly dense with stars, Sagittarius is usually a bit harder to find, but it’s notable because it directly points out where the brightest part of the night sky will be. Sagittarius is supposed to be shaped like a centaur drawing a bow, but the brightest stars in the constellation form a more recognizable “teapot” shape. The spout of the teapot is located right on the bright bulge of the galactic center.
The Summer Triangle is particularly helpful for finding the galactic plane in the Northern Hemisphere. This portion of the galactic plane is home to three of the brightest stars in the sky: Deneb (the tail of Cygnus, the swan), Altair, and Vega. These three bright stars are some of the brightest stars visible in the Northern Hemisphere’s summer and are usually visible high in the sky in May, June and July. Deneb in particular is nice to capture in a photograph because it’s located right next to a colorful pink nebula called the North American nebula.
In the Northern Hemisphere, Cassiopeia is visible almost the entire year. It’s easy to find because it’s shaped like a giant “W” in the night sky. It’s one of the most northerly constellations and it’s notable because it’s adjacent to Polaris, the north star. I also use it as a guide to locate the galaxy Andromeda, the nearest full size galaxy to the Milky Way. Andromeda is visible to the right of Cassiopeia in the photo below.
In the Southern Hemisphere, Crux is the constellation that is visible as an almost perfect cross with some of the brightest stars in the sky. It sits right on the galactic plane.
Orion is the part of the Milky Way that’s easiest to see in the “quiet season” of the night sky from September through April. Orion is positioned near the galactic plane almost directly opposite the galactic center. It’s immediately recognizable in the sky by the three bright stars that make up Orion’s belt. I like shooting photos of Orion because of its large amount of colorful nebula and bright stars. I think Orion is one of my favorite parts of the night sky and I’ve made a tutorial specifically about shooting Orion.
These constellations are your tools for finding the Milky Way. Try using your smartphone app to help look for these constellations to learn how to recognize them. After several sessions of night sky gazing, you’ll become more adept at recognizing these important parts of our home galaxy. Now all you’ll need are some clear dark skies and some simple photo equipment like a camera, a fast lens and tripod to learn how to photograph the Milky Way. If you have any questions or comments feel free to participate in on the comments below; check out my Facebook page and like to receive regular image and news updates.
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