Sony's replacement of its popular a7R II comes packed with new features, most of them aimed at performance, ergonomic and autofocus improvements. But there are image quality improvements as well, like more dynamic range, but also a new Pixel Shift feature that hasn't yet been talked about much.

Cameras with sensor-shift mechanisms are increasingly offering these pixel shift modes by precisely moving the sensor in one pixel increments to sample each color at every position, thereby overcoming the downsides of the Bayer filter array. And getting you sharper images with less moiré, with potentially less noise thanks to multi-sampling and less math required to figure out the R, G and B colors at each pixel. How does this look in the real-world? Explore our Pixel Shift vs. non-Pixel Shift Raw comparison below (Raws processed using Sony Imaging Edge with all sharpening and noise reduction settings zeroed out, and only tonal adjustments applied to deal with the high scene contrast):

Move around the image and you'll see a marked increase in clarity almost everywhere. The buildings' windows are sharper and clearer, all the foliage far more defined... these Pixel Shift results are outstanding for static scenes. It's like a veil has been lifted off your scene: something landscape photographers will simply love. All details are clearer, crisper, and there is no hint of moiré anywhere. The last time I saw this jump in clarity was going from a Rebel with kit lens to a 5D with L-series lens, to put this in perspective.

Last time I saw this jump in clarity was going from a kit lens on a Rebel to an L-lens on a 5D

And it's not because of extra sharpening (which would come at the cost of more noise, which we don't see), but because of the extra sampling. We'd also expect a decrease in noise, but we can't quite tell here because of the non-standard workflow and because - to the credit of the a7R III's dynamic range - this sunset scene still doesn't have enough dynamic range to challenge the a7R III and make shadows visibly noisy.* That's saying a lot.

This sunset scene doesn't have enough dynamic range to challenge the a7R III. That says a lot.

What's more: Sony's recent lenses have enough resolving power to take advantage of this mode. You see the resolution increase at least partly because the lenses have enough resolving power to take advantage of the extra pixel-level sampling (theoretically, increasing the resolution of any part of the imaging chain has the potential to increase sharpness, but your lens needs to resolve enough to begin with to see the dramatic differences we're seeing here).

Studio Scene Comparison

We know you're itching to compare these results to all our other cameras, including those with their own Pixel Shift modes. Well, here you have it (Phase One 100MP camera is included as a benchmark so you know what the details are actually supposed to look like in our scene):

The first thing you might notice is the lack of moiré in our saturated color wheels, something even the Phase One 100MP sensor fails at. The Pentax K-1 offers a similar performance here: sampling three primaries at each pixel position helps overcome the color aliasing typically associated with Bayer filters.

Pixel Shift removes color aliasing in the newspaper print as well (check back above). It also produces less moiré in the black and white text of our scene. The lack of moiré and increased resolution allows you to read down to the last line with ease - something the a7R II can't claim.

You can even start to see the texture in our color wheel that not even the Pentax in Pixel Shift mode (much less the original a7R II) can resolve. The Phase One and Pentax medium format cameras are the only other cameras sharing that honor.

Traditional cameras with Bayer arrays particularly resolve less in saturated colors, where the lower resolution of the red or blue pixels really starts to show. So take a look at the massive increase in resolution in our saturated threads. You can resolve individual strands the a7R II - or a7R III without Pixel Shift - don't show. The K-1 does well here too, but remember the a7R III images are processed through Sony 'Imaging Edge', and we expect things to improve once Adobe provides support (which, to our understanding, it will).

Just generally speaking there's more detail throughout our scene: take a look at our Beatles patch. You can make out individual threads otherwise only visible to the Phase One. The increased resolution of the a7R III over the K-1 probably helps resolve more threads, though the incredibly sharp Sony FE 85/1.8 may have some role to play here as well.

If you're curious how well the 50MP Canon 5DS R compares: not so well. Individual threads are not well resolved (if not noisy, particularly in the reds), and color aliasing can be an issue.

Are we impressed?

How could we not be? Landscape, cityscape and architecture photographers will absolutely love this new feature paired with the already excellent sensor in the a7R III - as long as they steer clear of (or clone out) moving objects in the scene. Cloning out artifacts is made easier by the fact that you always have the four standard ARW files used to build the Pixel Shift file.

Are we impressed? How could we not be? Landscape, cityscape and architecture photographers will love this

Pixel Shift has a number of notable limitations though. First, the shortest delay between the four exposures is 1s, because Sony feels the sensor needs at least this long to stabilize the sensor after shift. This will make it harder to avoid artifacts from moving objects. Such artifacts can be very obvious in scenes with motion (water, fast clouds). In fact, if you zoom in to 200-400% you'll find some artifacts in the clouds in our real-world scene above. Telephoto shots prone to movement from wind and vibrations may also be problematic for Pixel Shift. You'll also want to use a sturdy tripod to brace the camera against wind and vibrations, as well as a remote release or a self-timer.

Furthermore, for now, using Sony's 'Imaging Edge' software to assemble the Pixel Shift image from four ARW files is a clunky process, and the software itself is very slow. Ideally the camera would assemble a DNG file in-camera for editing in any Raw converter, but perhaps Sony feels some Pixel Shift specific parameters (like 'Peripheral Edge NR') during the assembly process need fine tuning on a scene-by-scene basis. We do expect common Raw converters like ACR to eventually support Pixel Shift, at which point we'll have a more standardized way to compare how Sony's implementation stacks up against others' when shooting anything from static landscapes to tougher scenes with motion.

UPDATE: We recommend you use the excellent PixelShift2DNG software to assemble widely-compatible DNG Raw files from the 4-16 .ARW files generated by the Pixel Shift feature on the a7R III/IV. It's developed by the talented folks at LibRaw and it's free.

* That said, this was still a high dynamic range scene that we exposed for the highlights and tone-mapped in post using Sony's 'Imaging Edge' software (the only option for processing Pixel Shift files at the moment). So shadows have been lifted many stops - yet remain noise free. You'll have to excuse the somewhat flat result, as we didn't have access to the tools we're used to to tonemap HDR images while retaining proper local contrast. More to come...