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Posts Tagged ‘astrophotography’

Samyang teaser suggests two new astrophotography prime lenses will be released later this month

04 Apr

Samyang, also known as Rokinon or Bower depending on the retailer, has posted a teaser on its Facebook page for two upcoming lenses — a full-frame lens and an APS-C lens — which appear to have been designed specifically with astrophotography in mind.

Samyang doesn’t reveal the focal length or aperture for either lens, nor whether these are manual lenses or autofocus lenses, but both lenses are relatively compact primes based on their respective silhouettes. Samyang says the lenses will be ‘Masterpiece[s] for Astrophotography,’ with night sky photos (presumably captured with the respective lenses) as the background for the teaser.

The duo will be out by the end of the month, according to the post, so it shouldn’t be long before we know the details.

Articles: Digital Photography Review (dpreview.com)

 
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Google explains its Night Sight astrophotography mode in detail

27 Nov

Ever since Google launched its Night Sight feature on the Pixel 3 series the low light photography feature has been very popular with users. On the new Pixel 4 Google has updated Night Sight with a specific mode for astrophotography. The team behind it has now authored a blog post to explained the function in more detail.

In order to capture as much light as possible without using shutter speeds that would require a tripod and/or lead to blur on any moving subject, Night Sight splits the exposure across multiple frames that are aligned to compensate for camera shake and in-scene motion. In a second step the frames are averaged to reduce noise and increase image detail.

The astrophotography feature uses the same approach in principle but uses longer exposure times for individual frames and therefore relies on tripod use or some other kind of support.

Image with hot pixels (left) and the corrected version (right)

The team decided exposure times of individual frames should not be longer than 16 seconds to make the stars look like points of light rather than streaks. The team also found that most users were not patient enough to wait longer than four minutes for a full exposure. So the feature uses a maximum of 15 frames with up to 16 seconds exposure time per frame.

At such long exposure times hot pixel can become a problem. The system identifies them by comparing neighboring pixels within the same frame as well as across a sequence of frames recorded for a Night Sight image. If an outlier is detected its value is replaced by an average.

In addition the feature uses AI to identify the sky in night images and selectively darken it for image results that are closer to the real scene than what you would achieve with a conventional long exposure.

This image was captured under the lighting of a full moon. The left half shows the version without any sky processing applied. On the right the sky has been slightly darkened for a more realistic result, without affecting the landscape elements in the frame.

Night Sight is not only about capture, though, it also includes a special viewfinder that is optimized for shooting in ultra-low light. When the shutter is pressed each individual long-exposure frame is displayed as it is captured, showing much more detail than the standard preview image. The composition can then be corrected and a new Night Sight shot triggered.

Some of the results we have seen have been impressive. For more more technical detail head over to the original post on the Google blog. A n album of full-size sample images can be found here. The team has also put together a helpful guide for using the feature in pdf format.

Articles: Digital Photography Review (dpreview.com)

 
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Canon Announces the EOS Ra, Its First Mirrorless Astrophotography Camera

08 Nov

The post Canon Announces the EOS Ra, Its First Mirrorless Astrophotography Camera appeared first on Digital Photography School. It was authored by Jaymes Dempsey.

Canon eos raCanon has announced its first astrophotography camera since the Canon 60Da, which is also its first-ever mirrorless astrophotography camera:

The Canon EOS Ra.

The EOS Ra isn’t a particularly flashy camera; it’s the Canon EOS R, along with a few special features designed for astrophotographers. But if you’re looking to take photos of the night sky, the Canon EOS Ra may be exactly what you need.

Canon eos ra

What makes this camera special?

First, Canon has added a special IR filter in front of the sensor, one that promises to increase transmission of the H-alpha wavelength by approximately four times the amount of the standard EOS R. Most cameras include an IR filter that reduces H-alpha wavelength transmission. But the H-alpha wavelength features heavily in celestial phenomena such as diffuse nebulae; the enhanced transmission should make for clearer, sharper images of these astronomical objects.

And second, Canon added enhanced EVF and LCD viewing. You can zoom in to 5x or 30x magnification using either the LCD or the electronic viewfinder, which allows you to focus on celestial objects with increased precision.

Canon Announces the EOS Ra, Its First Mirrorless Astrophotography Camera

Note that the Canon EOS Ra offers all the other features of the EOS R, including a 30.3 MP sensor, the DIGIC 8 processor, continuous shooting at 8 frames per second, and Canon’s amazing Dual Pixel autofocus.

So who should get the Canon EOS Ra? And how does it perform when shooting subjects other than the night sky?

The Canon EOS Ra is designed for astrophotographers, and I recommend you keep it that way. While all the EOS R features are present, the altered IR filter may cause issues when photographing non-celestial subjects. Plus, the EOS Ra has a few hundred dollars added to its price tag, selling for $ 2499 USD compared to the $ 1799 USD Canon EOS R. For non-astrophotographers, purchasing the EOS Ra will be throwing away unnecessary dollars.

But for astrophotographers, the Canon EOS Ra is a fantastic option.

The camera is currently available for preorder and should debut in mid-December 2019.

What do you think about the Canon EOS Ra? And for all the astrophotographers out there: Will you be using it for astrophotography?

The post Canon Announces the EOS Ra, Its First Mirrorless Astrophotography Camera appeared first on Digital Photography School. It was authored by Jaymes Dempsey.


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Google’s Pixel 4 Astrophotography mode is now available on Pixel 2, 3 and 3a devices

07 Nov

The Google Pixel 4 offers a range of new and innovative camera features. Some of them are, mainly due to hardware requirements, exclusive to the latest Pixel device but Google has promised to make some others available for older Pixel models.

This has now happened in the case of the Pixel 4 Astrophotography mode. The function had previously been made available for older Pixels via a community-driven development effort but it’s now officially supported with older devices in the latest version 7.2 of the Google Camera app. Below are a few sample photos captured with the Astrophotography mode on the Pixel 4:

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Users of the Pixel 2 and Pixel 3 series, including the Pixel 3a, are now able to use the feature after updating to the latest version of the app. The Astrophotography option builds on Google’s Night Sight technology and captures and combines several frames to achieve a clean exposure and great detail as well as limited noise levels when photographing the night sky.

Articles: Digital Photography Review (dpreview.com)

 
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Canon unveils the EOS Ra, a full-frame mirrorless astrophotography camera

06 Nov

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Canon very quietly today released a dedicated astrophotography version of its EOS R camera, the EOS Ra.

Much like the Nikon D810a and Canon’s own 60Da, the EOS Ra has been modified to better capture celestial objects in the night sky, but aside from that remains unchanged from its more conventional counterpart. Specifically, Canon has modified the IR filter in front of the full-frame sensor, to allow the Ra to capture as much as four times the amount of hydrogen alpha rays (656nm wavelength) compared to the standard EOS R camera. This alteration will make it easier to capture the deep red infrared rays given off by objects in space.

The EOS Ra also offers a 30x magnification option in the EVF and in Live View, a dramatic increase from the 10x magnification found in the standard EOS R. This increase should make it easier to focus on celestial bodies to get focus just right.

Aside from those two alterations, the EOS Ra is effectively identical to the EOS R, complete with the 30MP sensor, 3.69M-dot OLED EVF, dot-matrix LED panel and magnesium-alloy body.

The Canon EOS Ra is currently available to pre-order for $ 2,500. No estimated shipping timeframe has been given at this time.

Update: As of 5pm PT, the EOS Ra product page on Adorama.com has been removed. We have asked Canon for clarification and will update this article accordingly.

Articles: Digital Photography Review (dpreview.com)

 
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Hoya introduces Starscape light pollution filter for astrophotography

05 Nov

Japanese filter and accessory manufacturer Hoya has introduced its new light pollution cut filter, Starscape. The filter is designed specifically for nighttime photography, enabling photographers to capture star-filled night skies in areas where light pollution could limit visibility.

The Starscape filter is designed to reduce the glare produced by the mercury and sodium vapor lights commonly found in cities. According to Hoya, its filter cuts the greenish and yellow hues that may result from artificial light pollution, ultimately offering what the company describes as ‘natural color reproduction.’ It’s unclear how well it can handle light pollution from LEDs, however.

Hoya will offer the Starscape 1.5 ND filter in 49mm to 82mm sizes; it features a low-profile aluminum frame and 0.5-stop exposure reduction. Pricing and availability information hasn’t been revealed at this time.

Articles: Digital Photography Review (dpreview.com)

 
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Leaked Pixel 4 photos show new and improved astrophotography, portrait and Night Sight modes

03 Oct

The Google Pixel 4 is just around the corner, expected to be announced at the Made by Google Event on October 15. We’ve already seen what the Pixel 4 will look like, thanks to both Google and third-party leakers, but today we’re getting more than a hardware leak. 9to5Google has obtained exclusive images that it claims Google will use to promote the new camera capabilities of its impending device.

9to5Google has kindly given us permission to share the full-resolution images directly from their source and only saved once with a watermark over them. The images, as you’ll see below, are a combination of images captured with the front-facing selfie camera and the rear-facing cameras (rumors point to there being a 12-megapixel main camera and a 16-megapixel telephoto camera). The images appear to include photos shot in multiple camera modes, including the improved Night Sight mode and a new star-shooting mode that’s been rumored for some time now.

First up are a few photos that appear to show off the portrait mode of the front-facing camera onboard the Pixel 4. Interestingly, these photos measure in at 4.5-megapixels, nearly half the resolution of the 8-megapixel onboard the Pixel 3, so we’re not sure whether these are simply resized or from a larger sensor that’s been supersampled, but whatever the case is, they look impressive. The faked bokeh looks both realistic and smooth, while the outline, even around hair, seems to be precise, with only a few notable exceptions (specifically the arm on the white jacket).

Next up are more portrait mode shots with what we presume to be the rear-facing camera on the Pixel 4. These shots measure in at 7-megapixels and were taken with the main camera (the Pixel 4 will feature multiple camera modules). Like the previous shots, the fake bokeh appears to be incredibly accurate, even on difficult subjects, such as a long-haired pet and flyaway hairs.

Moving along, we have three photos (two 9.2-megapixels and one 5.2-megapixels) that appear to be taken with Google’s Night Sight mode. Based on the EXIF data embedded in some of the images, the photos were taken with the main 27mm (35mm equivalent) F1.7 camera onboard the Pixel 4. The actual lighting scenario in the scene isn’t known, but the images appear both bright and vibrant with nice dynamic range, even in the images that have multiple light sources at different color temperatures.

Along the lines of Night Sight, it appears a pair of photos showing off the much-rumored night sky camera mode expected to be onboard the Pixel 4. Based on the EXIF data, these images (the header image of this article and the below image) were also captured with the main camera unit and the GPS data reveals the shots were captured at Pinnacles National Park in Central California along State Route 146. For being captured with a smartphone, the amount of detail captured in the night sky is absolutely incredible. It seems as though stars get lost around the silhouette of the trees in the frames, but the rest of the sky showcases countless stars in the Milky Way.

The remainder of the photos showcase a number of scenes, but it’s not clear what specific camera modes are being used to capture these images. As noted by 9to5Google, it’s been rumored there will be a ‘Motion Mode’ with the Pixel 4, but that’s not yet confirmed, even though a few action-style shots are seen in the following images.

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Plenty still remains to be seen, but with the Made by Google Event less than two weeks away, it won’t be long before we know just what the Pixel 4 is capable of. 9to5Google has also detailed a new ‘Dual Exposure’ mode that’s believed to be avaialble on the Pixel 4.

Articles: Digital Photography Review (dpreview.com)

 
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Leaked promo video hints at Google Pixel 4 astrophotography mode

10 Sep

Google’s Pixel devices are usually cutting edge in terms of computational photography and the current Pixel 3 device comes with an entire range of computational imaging features, including the multi-frame-stacking Night Sight low light mode.

Now it looks like Google is planning to take things one step further with the upcoming Pixel 4 generation and offer some kind of astrophotography feature.

A fuzzy screenshot of the leaked promotional video showing off a dedicated camera mode for capturing stars.

Pro Android has managed to get hold of what appears to be an (as yet) unreleased Google Pixel 4 promotional video. The clip highlights several software features of the still unreleased device, including a Night Sight-like astrophotography mode. Unfortunately, no technical detail is provided but it is fair to assume to mode will use some combination of frame-layering techniques and artificial intelligence to create well-exposed noise-free images of the night sky.

Huawei’s current flagship P30 Pro already features a multi-frame star trail mode which is capable of achieving pretty attractive results in the right circumstances. We’ll have to wait until October, when the Pixel 4 is expected to be launched, to find out if Google’s solution is capable of improving on the Huawei feature.

Articles: Digital Photography Review (dpreview.com)

 
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How To Do Astrophotography Using DSLR And Telescope

22 Feb

Growing up, I was one of those kids running around and telling everyone that I’m going to be an astronaut. I had a room that would make you feel like Buzz Lightyear could actually live in it and forget he’s on Earth. So it was pretty obvious that somehow I’d find myself getting into astronomy. Now I never really became Continue Reading

The post How To Do Astrophotography Using DSLR And Telescope appeared first on Photodoto.


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How To Plan Astrophotography With The Photopills App

14 Nov

One of the most important lessons that astrophotography has taught me is the importance of planning. I’m a huge advocate of planning your photos in advance, no matter what your subject may be. With most genres of photography, you can wing it and still come home with some great photos. With astrophotography, you’re a lot less likely to get lucky if you don’t plan ahead.

how to plan astrophotography with photopills app

There are many factors that come into play when photographing the night sky. You can’t just pick a location and hope for the best. A successful image will depend on sunrise/set, moonrise/set, the phase of the moon, milky way position, galactic center visibility, time of year, and light levels.

If all that feels a bit overwhelming, don’t stress. There are many tools available to help you research and plan your night sky photos. I’ve used a number of them over the years, but there’s really only one that I rely on these days.

The PhotoPills App

You may have heard of PhotoPills already. It’s a popular app among landscape photographers. I’ve used it for a while now, and I can’t imagine planning my travel and landscape photos without it.

PhotoPills is a great tool for figuring out the best time to photograph the outdoors. It gives you a bunch of useful information about the sun and moon at a specific time and location, which is great for planning sunrise and sunset photos.

how to plan astrophotography with photopills app

It does so much more than that, though. It’s actually an incredibly feature-rich app that provides far more tools than I could cover here. If you’re new to PhotoPills, I recommend learning the basics of the app first. I’m just going to show you how to use PhotoPills to plan astrophotography.

Ambient Light

The single most important factor in successful night sky photography is darkness. There are three main factors that will affect the amount of ambient light in the scene and potentially ruin your photos.

The first, and most obvious, is daylight. Photographing the night sky while the sun is still shining is difficult. While you may think that you just need to wait until after sunset, it’s not quite that simple. The light from the sun illuminates the sky for a lot longer than you may realize.

As the ambient light from the sun fades in or out at the end of the day, it goes through four phases. You’ve likely heard of golden hour and blue hour. There’s also nautical twilight and astronomical twilight. You don’t need to understand what these terms mean, just that there will still be light from the sun that your camera will see.

For the darkest sky possible, you want to shoot after astronomical twilight ends and before it begins again. In the PhotoPills app, open the Sun pill, select the calendar view, and tap on the date you’re planning to shoot. You’ll be able to see the exact times from golden hour and sunset, through the twilight phases, and into night time. The sky will be darkest between that time and the beginning of astronomical twilight the next day.

how to plan astrophotography with photopills app

Light Pollution

The second factor is light pollution caused by man-made light. This is most noticeable in or near built-up areas, so getting away from these is crucial.

The simplest way to find locations that have minimal light pollution is to look at a light pollution map such as Blue Marble Navigator. You can easily find locations far enough away from light pollution to photograph the night sky.

how to plan astrophotography with photopills app

The Moon

The third factor that can affect the amount of ambient light in your night sky photos is the moon. The moon can reflect a surprising amount of the sun’s light and wash out your night sky photos. It can also illuminate the foreground, which may be something you want to take advantage of. Unfortunately, you can’t have the moonlight on the foreground without it illuminating the sky also.

If you want to eliminate moonlight from your night sky photos, there are two ways to do it. The first, and easiest, is to shoot during a new moon. A new moon is the opposite to a full moon, meaning it’s completely dark. No matter where it is in the sky, it won’t reflect any light or affect your photos at all.

The second way is to plan your photos so that you’re shooting while the moon is below the horizon. That means before moonrise and after moonset. This isn’t as effective as timing your photography with a new moon, but you can come home with some great images using this technique.

PhotoPills makes it easy to plan using both these options. To plan for a new moon, open the Moon pill and go to the calendar view. You’ll be able to look ahead and see the date of the new moon each month. The new moon is completely black with the little circle next to the date. A day either side is also usually safe.

how to plan astrophotography with photopills app

To figure out what time the moon will rise and set on a specific date, tap on that date while still in the calendar view. You’ll be shown a list of events for that date, including moonrise and moonset.

how to plan astrophotography with photopills app

The Milky Way

If you want to include the Milky Way in your night sky photos, you’ll need to consider a couple of things. Firstly, although the Milky Way is visible all year round, the galactic center is only visible for part of the year. This is between March and October, or slightly longer in the Southern Hemisphere.

The second thing you need to remember is that the Milky Way moves through the sky as the earth rotates, just like the sun and moon. What this means is that when planning your astrophotography, you’ll need to consider the time that the galactic center is visible.

PhotoPills makes this super easy. Going back to the Sun pill, you’ll see that galactic canter visibility appears in the event list for your selected date. Note that this may not be the time that the galactic center rises and sets, it may be the time that the sky is dark enough to see it.

how to plan astrophotography with photopills app

One of the coolest and most useful features of the PhotoPills app is augmented reality (AR). In the Planner pill, go to the date and location you’re planning to photograph, then tap Night AR in the option bar at the bottom. This will show you an AR view that superimposes the Milky Way over your screen.

how to plan astrophotography with photopills app

This is useful for seeing where the milky way and galactic center will be at your selected date and location. You’ll be able to see the angle and relative position of the Milky Way, as well as watch how it will move across the sky by sliding your finger across the screen.

PhotoPills Widgets

PhotoPills makes it super easy to see all this info in one place. Instead of having to go into each pill to find the relevant information you want, you can take a quick look at the PhotoPills widget and see times for the next sun, moon, and galactic center events.

how to plan astrophotography with photopills app

This won’t work for planning future photos, but if you want to see if tonight is a good night for astrophotography, you can find out at a glance. I’m sure you’ll find it useful once you have a good understanding of the right conditions for night sky photography.

Dig Deeper Into PhotoPills

As I mentioned, the PhotoPills app is incredibly powerful and feature-rich. It includes many more useful tools, such as Star Trails, Spot Stars, and Time Lapse. If you want to dig deeper and find out what PhotoPills can really do, I encourage you to buy the app and spend some time working through the User Guide on their website. There’s a wealth of tutorials and how-to videos that will help you make the most of the app.

I would love to see the night sky photos that you create with PhotoPills. Feel free to share them below.

The post How To Plan Astrophotography With The Photopills App appeared first on Digital Photography School.


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