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5 Reasons to Consider Concert Photography with a Wide Open Aperture (and the Secret to Perfecting it)

21 Oct

Concert photography is arguably one of the most adrenaline-filled niches you can engage in as an image maker. Musicians, magazines, fans, and record labels alike turn to skilled concert photographers to tell a story for the momentous performance. For most music photographers (due to venue constraints) there is less than ten minutes to capture enough great images to populate a full gallery. Partner this with tumultuous circumstances such as sporadic lighting and an excitable audience and you have effectively created a photographic situation that is unlike any other.

As such, shooting with a very wide open aperture might appear to be too daunting of a task! There are common misunderstandings of how to use and work with a wide open aperture! If your inner aesthete drools over soft, dreamy photographs and creamy bokeh, then you better get ready to play with some low, low, low numbers. We are here to tell you how to photograph concerts at f/1.2, f/1.4, and f/1.8!

Wide aperture concert photography tips

Why Use an Ultra Wide Aperture?

Here are 5 reasons you may want to consider shooting concert photography with a wide open aperture.

1. Aesthetic and Style

To preface, a lot of the quality and final image look is based on the type of lens used. In the past several years, photography fans are gravitating towards the shallow depth of field aesthetic. If you’re in the business of producing commercial music photography (like myself), you’re going to want to keep following the trends and adapting to what is sought after in the industry.

Aesthetic and Style with Wide Aperture Concert Photography

An added bonus is being able to niche yourself a bit in an industry that has a lot of competition, many photographers are wary of shooting fast paced events with a wide aperture due to potential focusing issues. If you can master this art, you have something that will separate you from others.

2. Low Light Capability

Low light concert photography with wide aperture

Unless you’re shooting a big name at an amphitheater, a lot of smaller venues will have very poor lighting. You’ll need to use equipment that will illuminate the frame with whatever limited lighting is available. In these low light scenarios you need a lens with a wide enough aperture to let in more light. Using a lens that goes down to f/1.2, for example, is a great way to let enough light in and make the frame bright. Remember, the aperture is the hole the light passes through in your lens. The wider the aperture, the more light that enters the camera.

3. Shallow Depth of Field

Shoot concert photography with shallow depth of field

The wider the aperture, the shallower the depth of field. Shallow depth of field is great for live concerts because the stage can be rather cluttered compositionally. From instruments to cables, background props, and other band members, there can be a lot going on in the frame at once. Only having one subject in focus with the rest blending into a creamy bokeh makes for a much more visually pleasing and simplified image. With the depth-of-field being so shallow, whatever troubles you about the background can easily melt into a beautiful creamy bokeh.

4. Detail Shots

Capture detail in your concert photography with wide aperture

On the topic of shallow depth of field, if you are photographing for an instrument company, an aperture of f/1.8 will likely become your best friend. This is because photographs taken with a large aperture allow all of the focus to lie on the subject, and the background ceases to remain a distraction. Many instrument companies love to have their products captured in a natural usable setting, such as musicians at a live show.A shallow depth of field will keep the interest solely on your single subject.

5. Sharpness

How to achieve sharpness in your concert photography with wide aperture

Due to technological constraints, lenses that open their aperture below f/2.8 are fixed millimeter lenses (they do not zoom). As a general rule, fixed millimeter lenses tend to be sharper than lenses with a range.

Let’s Talk About the Elephant in the Room: Focusing with a Wide Open Aperture

Right where all of the benefits of an f-stop of 1.2 start to break down is the focusing. The wider the aperture and the shallower the depth of field, the more difficult it can be to focus on what you want. Pair that with a live show in which the lighting is a bit of a mess, and the subjects move spontaneously in various directions, and it sounds like the perfect recipe for a photographer migraine. However, focusing with a wider aperture doesn’t have to be so difficult- it’s just a different thought process.

The Concept of Sharpness

Sharp concert photography through composition

Really, the focus stems from a desire to have an image that is sharp. But what is sharpness? Sharpness is an interesting concept. How sharp a subject appears is a matter of two things: the focus the camera captures and the amount of contrast on your subject. The term “sharpness” is, in fact, an illusion. You see, for an image to be considered sharp, it needs to have contrast. If the there is little contrast in the image, the subject will not look three-dimensional regardless of whether the focus is perfect or not. Biologically, the way that our eyes work, our vision naturally detects edges to register sharpness, and shadows and highlights in order to record the depth in a subject. This is a very important concept to understand when answering the question of how to make images look sharp. When editing your concert photography images, be attentive to the shadows and highlights. And add contrast to define your subject.

Perfect Focus

Sharp concert photography through perfect focus and wide aperture

In terms of getting your image to actually be sharp (from being in perfect focus), here is the basic concept of how focus works in a camera. When you focus your camera on a subject, it establishes a focal plane. To get your subject in focus, it has to be on the focal plane. Focal planes happen on an x (horizontal) and y (vertical) axis. This means anything along either of those axes will be in focus, and anything not on them will be out of focus. The concern with a wide open aperture is that your focal plane is quite small. As you decrease your aperture number and make the opening wider, the invisible area in front and behind the plane of focus will get smaller and smaller, leaving you with much less wiggle-room. As such, distance from the subject plays a key role in your focus.

When shooting wide open, even the smallest diversion from either of the focal plane axes will cause your subject to be out-of-focus. You cannot take a step forward or back without the need to refocus when shooting at a wide aperture. But by keeping this in mind, you can adjust your photography technique to better accommodate the small focal plane.

Single Point Autofocus

Using single point focus and wide aperture in concert photography

A trick to help make sure that what you want in focus is indeed sharp, is to use single point autofocus. By default, your camera will probably select either the object that’s closest to the camera or what’s in the center of the frame. By using single point autofocus, you tell the camera exactly where to focus, which is extremely helpful with low aperture numbers. Refer to your camera model’s manual to find how to change the focus setting!

The Real Secret

The real secret to wide aperture concert photography

Keeping in mind how the focal plane works, this is the big trick to shooting wide open at a concert: The farther away you are from the subject, the easier it is to get the subject in focus. You can get the subject in focus and still maintain and extremely creamy depth of field.

Whether you’re in a photo pit or just in the main venue floor, your position to begin the concert shoot can significantly affect your success for the rest of the shoot. Keeping in mind that for most general photography passes your time is limited, you need to be ready to jump right into the shoot the very second the music hits your ears. My suggestion is to start on the outer edges of the pit or venue and work your way to the middle. Many concert photographers all flock to the center of the shooting zone, and begin shoving to claim their dead center spot. When you start from the edge, while the other photographers are all congregating and fighting for the center, you have much more room to move freely on the outer edge. This is where you will have an advantage to be able to move a bit further away from your subject in order to expand your plane and get that perfect focus.

Shooting concert photography in wide aperture

Now that you’ve been let in to the secret, go out there and capture some awesome concert shots!

The post 5 Reasons to Consider Concert Photography with a Wide Open Aperture (and the Secret to Perfecting it) appeared first on Digital Photography School.

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How to Use Shutter Speed and Aperture Together When Using Manual Mode

18 Oct

When you’re just starting out as a photographer, one of the biggest challenges can be using the correct shutter speed and aperture values. Shooting a correctly exposed photo in manual mode is an amazing feeling. But unless you know the relationship between shutter speed and aperture it may not happen very often.

In this article I’ll talk about how to use the shutter speed and aperture values efficiently to get properly exposed photos.

Note: To get full control of your camera’s shutter speed and aperture values you need to put it in Manual Mode.

What happens when you adjust the aperture value

When you increase the aperture value the aperture opening inside the lens gets smaller, reducing the amount of light that can enter the camera. Similarly, when you decrease the aperture value the opening gets bigger, allowing more more light to enter the camera.

Here’s an example to help you understand how changing the aperture value affects the shutter speed.

Let’s say you’re using a 24-70mm f/2.8 lens with a default aperture value of f/8. At a shutter speed of 1/200th of a second your camera will give you the correct exposure.

EXIF: f/8, 1/200th sec, ISO 100

Now you want a shallower depth of field (more blur effect), so you reduce the aperture value to f/2.8. Because you’ve reduced the aperture value by three stops, the aperture opening is now letting three stops more of light into the camera. The result? An overexposed image.

If you reduce the aperture value, you must increase the shutter speed by the same number of f-stops to compensate. Similarly, if you increase the aperture value, you must slow down the shutter speed by the same number of f-stops.

In this example, you’ve reduced the aperture value by three stops. So to get the correct exposure at f/2.8 you must increase the shutter speed by three stops to 1/1600th of a second.

EXIF: f/2.8, 1/1600th sec, ISO 100

Another example might be if you’re shooting a landscape. This time you want a deep depth of field, so you choose an aperture value of f/16. You’ve increased the aperture value by two stops (from f/8 to f/16), so you’re letting two stops less of light inside the camera. At a shutter speed of 1/200th sec this give you an underexposed photo.

Underexposed image at f/16, 1/200th sec, ISO 100

To get the correct exposure, you need to slow down the shutter speed by two stops to 1/50th of a second. With the aperture value two stops higher (f/16) and the shutter speed two stops lower (1/50th sec) your photo will be perfectly exposed just as it was at f/8 and 1/200th sec.

What happens when you adjust the shutter speed

When you increase the shutter speed the camera shutter opens and closes more quickly, reducing the amount of light that enters the camera. Similarly, when you reduce the shutter speed more light enters the camera.

Starting with the same base camera setting as before (f/8 at 1/200th sec), let’s see how changing the shutter speed affects the aperture value.

Let’s say you’re a wildlife photography, and you want to take photos of a flying bird. To avoid any blurring you’d need to increase to 1/800 sec. You’ve increased the shutter speed by two stops, and so you have two stops less of light entering the camera sensor. At f/8 this would give you an underexposed image.

Because you’ve increase the shutter speed by two stops to 1/800th sec, you must also reduce the aperture value by two stops to f/4 to get the same correct exposure you had at the f/8 and 1/200th of a second you started with.

Or perhaps you intentionally want to capture a panning shot, and s reduce the shutter speed to 1/50 sec to get the effect you want. Reducing the shutter speed by four stops (from 1/800 sec to 1/50 sec) means you’re letting in four stops more of light into the camera. And at f/8, that would give you an overexposed image.

To get the correct exposure you’d need to increase the aperture value by four stops to f/32.

By remembering these examples when you’re shooting in manual mode, you should end up with far more photos that are correctly exposed.

The post How to Use Shutter Speed and Aperture Together When Using Manual Mode appeared first on Digital Photography School.

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OPPO R17 Pro launches with variable aperture 3D triple-camera

25 Aug

For many consumers outside of Asia OPPO might not be a household name, but the company has an impressive track record in mobile camera innovation.

With the just-announced R17 Pro OPPO is continuing its camera-focused strategy, offering, after the Huawei P20 Pro, the second triple-camera equipped phone in the market. That said, while the new OPPO has three cameras, the concept is different to Huawei’s.

In the P20 Pro a main camera is joined by a monochrome variant and a tele-module. On the R17 Plus you get a 12MP main wide angle camera with 1/2.55″ sensor and a Samsung-like F1.5/F2.4 variable aperture.

OPPO hasn’t been quite clear about what the secondary 20MP unit is used for but it’s likely a monochrome unit for improving noise, detail and digital zoom, just like the Huawei system. The third camera is a 3D depth sensor. So far we’ve only seen those at the front, enabling the 3D face unlock feature. On the R17 Pro it is used for 3D photo capturing and also allows you to use the phone as a game console and connect it to your TV.

The front camera offers a 25MP sensor and F2.0 aperture and other specs look promising as well. Qualcomm’s new upper-mid-range Snapdragon 710 chipset is paired with 8GB of RAM and 128GB of internal storage (no microSD support unfortunately) and the 6.4″ AMOLED display comes with a 1080 x 2340 pixel resolution. The 3,700 mAh battery supports OPPO’s SuperVOOC charging technology and the company says you can achieve 40% charge in 10 minutes using the the provided charger.

The R17 Pro will start selling in China in October and will set you back CNY 4,299 ($ 625). At this point there is no information on availability and pricing in other regions.

Articles: Digital Photography Review (dpreview.com)

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PinBox is a DIY 120 format pinhole camera made from cardboard and an acid-etched aperture

07 Jul

Not all Kickstarters need to be overly-ambitious projects with goals reaching six figures. Sometimes, they can be humble, affordable, and downright fun. Case in point is PinBox, a DIY pinhole camera from the Hamm Camera Company.

The PinBox is a do-it-yourself 120 format 6×6 pinhole camera designed specifically to teach you how to make your own.

This is the second crowdfunding effort from Hamm Camera Company. The first was a Kickstarter for NuBox 1, a modular box camera that blew away its funding goal and started shipping out March 2018.

The PinBox kit, which is still available as a ‘super early bird’ special for $ 20, comes with pre-cut sections of cardboard for the frame of the camera, four film winding keys (two flat and two raised) and a precision-made acid etched aperture disk.

PinBox has a focal length of 30mm and a variable aperture, depending on the disk you choose from. Hamm Camera Company suggests going with the F120 or F200 aperture disks, but says it’ll have ‘a whole range of apertures to choose form in the backer survey’ for ‘about’ $ 6 a piece and available in sets at a discount.

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Similar to the NuBox 1, the PinBox is meant to be tinkered with and altered. In Hamm Camera Company’s own words:

Our unique design changes the playing field of conventional cardboard pinhole camera. Our approach is to create a camera from cardboard that you can rapidly iterate. Want to double your focal length? Go for it.

Each kit comes with a digital PDF with layout and instructions so you can tweak and adjust your PinBox as you see fit. All photographs currently show the PinBox camera as plain cardboard, but the Kickstarter notes the team is still working on various finishes, including color options such as red, blue, yellow, grey and maybe more.

PinBox is set to ship ‘around the end of August 2018.’ Once the early bird specials are gone, it’ll cost you $ 27 for a complete PinBox kit, as well as an additional $ 7 for shipping in the United States and $ 14 for international shipping.

To find out more details and to pre-order your PinBOx, head on over to the Kickstarter campaign.

Articles: Digital Photography Review (dpreview.com)

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Aurora Aperture doubles up on its new PowerXND Mark II VND filters

14 Jun

Back in 2016, Aurora Aperture took its first foray into the photography filter world with the launch of its PowerXND 2000 variable neutral density (ND) filter. Now, it’s back at it again on Kickstarter with the launch of a pair of updated PowerXND Mark II filters.

Unlike its first filter, the PowerXND Mark II comes in two varieties: the PowerXND-II 128, which covers one to seven stops of light, and the PowerXND-II 2000, which covers from five to eleven stops of light.

By splitting the coverage into two filters, you now have the entire range from one stop of light reduction, all the way up to eleven stops, with a bit of overlap in-between.

Profiles of the new (left) and original (right) filters.

At the request of users, Aurora Aperture has added more aggressive knurling to the rings, direct reading scales and hard stops to its PowerXND Mark II filters, both of which should help dial in the proper exposure every time. Despite the changes in design, the PowerXND Mark II filters still measure in at just 6mm deep.

4K video screen shot

The filters are constructed of Schott B270 glass and a polarization film from Nitto Denko, which are combined with a proprietary polishing process. Aurora Aperture also adds ‘multilayer nano coatings’ on the elements to protect the elements from debris and reduce color shifting. The frames are CNC-milled from ‘aerospace grade aluminum’ and anodized black for corrosion protection.

Filters can be purchased for the following filter thread sizes: 37mm, 39mm, 40.5mm, 43mm, 46mm, 49mm, 52mm, 55mm, 58mm, 62mm, 67mm, 72mm, 77mm, 82mm, 86mm, 95mm, 105mm and 150mm.

The Kickstarter has already surpassed its $ 15,000 goal. Pledges start at $ 45, which will get you one small (37-46mm) 128 or 2000 filter and go up incrementally from there depending on the size and quantity of filters you need. Aurora Aperture expects the first filters to ship by September 2018.

Articles: Digital Photography Review (dpreview.com)

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The Samsung Galaxy S9+’s dual aperture feature explained

11 May

The wide-angle camera on the Samsung S9+, along with its smaller S9 sibling, comes with an adjustable aperture, offering either F1.5 or F2.4.

In a never-ending quest for better image quality, smartphone manufacturers are turning to all sorts of tricks to eke better performance out of very small image sensors. But through all the software, algorithms and dual-and-triple camera setups, the Samsung Galaxy S9 and S9+ flagship phones have joined a very select club of smartphones with real aperture settings. The S9+ will automatically switch from F1.5 to F2.4 depending on your lighting situation, and you can manually select it in ‘Pro’ mode.

Going from F2.4 to F1.5 on the Galaxy S9+ gives you nearly a stop and a third of extra light

So what are the potential benefits of having aperture control on a smartphone anyway? According to Samsung, “the category–defining Dual Aperture adapts to bright light and super low light automatically, like the human eye. And you can flex your artistic side, toggling the aperture to create a mood.”

Just ‘flexing my artistic side’ by manually choosing F1.5 and shooting into the sun. Out-of-camera JPEG.
ISO 50 | 1/516 sec | F1.5

All that strikes us as a little ‘over-the-top,’ but there is some potential here. Going from F2.4 to 1.5 gives you nearly a stop and a third of extra light, and will keep your ISO value down (or your shutter speed up) in dim conditions. But we were also curious about the quality in other situations; after all, these apertures are equivalent to F9 and F14 on full-frame. Could shooting the wider aperture in bright light give you sharper images by having less softness from diffraction?

Landscape quality

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F1.5	F2.4

Here’s an easy-to-see example of the difference in detail capture, despite all the Galaxy S9+ is doing behind the scenes to make these look as detailed as possible. It’s important to put this in context, though: when flipping between these two images full-screen on the S9+ they look identical. So unless you’re planning on making prints from your cell phone landscapes, it probably doesn’t matter all that much which aperture you (or the phone) pick.

Let’s see what sort of difference the aperture makes with a close subject, and distant background.

Close focus quality

Disappointingly, the S9+ and its included applications don’t allow you to use any computational background blur wizardry on images shot using the wide-angle camera that it does allow on its telephoto one (the smaller S9 on the other hand, which only has a wide angle camera, does let you do this). So does having a wider aperture give you some buttery background blur naturally?

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While there is a difference in background blur between the two apertures, it’s nothing like shooting with a wide-aperture prime lens on an interchangeable lens camera – but nor would we really expect it to be. But we do see how the phone’s noise reduction techniques deal with fine gradients in out of focus areas$ (document).ready(function() { $ (“#icl-4085–1726942983”).click(function() { ImageComparisonWidgetLink(4085); }); }).


F1.5	F2.4

Low light performance and takeaways

In really low light conditions, the faster aperture will definitely get you better shots on the Galaxy S9 and S9+ than if you were forced to use the camera at F2.4. Optical image stabilization means that you can hand-hold images down to a reasonably slow shutter speed, and the phone can keep its ISO more than a stop lower – as long as your subjects aren’t moving.

Out-of-camera JPEG.
ISO 50 | 1/13 sec | F1.5

But as I found out while shooting a dimly lit concert with the Galaxy S9+, Samsung’s latest flagship camera phone still isn’t a match for low light and moving subjects in its fully automatic mode (you can switch into ‘Pro’ mode and force higher ISO values or shutter speeds if you’re an advanced user). We are still working through our testing and plan on doing side-by-side comparisons with phones such as Google’s Pixel 2, which intelligently stacks images together even in low light situations.

This photograph taken at 1/30 sec in ‘auto’ was the only one that wasn’t blurred to oblivion. Out-of-camera JPEG.
ISO 800 | 1/30 sec | F1.5

Now it’s true that for casual shooters taking their phones out to dinner and photographing their friends and their food, the camera will automatically switch to F1.5 will help them get shots with more detail and less noise reduction, while using an F2.4 aperture will get them slightly better quality in daylight.

But we can’t help wondering if this is a little ‘gimmicky’ – the drop in detail at F1.5 is unlikely to be a deal breaker for these sorts of users, and if Samsung didn’t have to squeeze an aperture blade system into the lens design, could they simply have made the lens perform better wide open? The system looks to have real blades that expand and contract, but you’re only allowed a toggle between the two values.

We don’t know for sure, but we’ve still got lots of testing on the Galaxy S9+ over the coming weeks. Stay tuned for our full review.

Articles: Digital Photography Review (dpreview.com)

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Understanding Aperture and Landscape Photography – Why F16 Isn’t the Only Choice

27 Mar

Landscape photography is, in my opinion, one of the most difficult disciplines of outdoor photography, and perhaps one of the most challenging genres of photography in general. At first glance, the art seems straightforward. You find yourself a pretty piece of scenery, wait for some good light, and click the shutter. Easy, right?

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

And yet that’s not the end of the story. I have screwed up endless opportunities by making errors in composition, focus mistakes, unwanted motion blur, over and underexposures, and of course, by messing up the settings of my camera. I suspect anyone who has dedicated much time to the art of landscape photography can say the same.

Let’s Talk About Aperture

While entire articles, even books, have been written about each of those errors and frequent mistakes, there is only one I’m going to discuss here – aperture.

What aperture should you use in landscape photography, f/16 right? That’s what I’ve always heard. It’s the perfect combination of sharpness and depth of field. So set your aperture to f/16 and shoot away.

That’s it, article finished. I hope you enjoyed it. No, of course, that isn’t all. But I am surprised how many photographers assume that is the end of the story.

The real answer to the question of which aperture to us is – all of them – depending on the situation.

First, landscape photography is much more than just the classic composition that includes a foreground element in front of lovely background scenery. Rather there are detail shots, aerials, night photography, telephoto landscapes, and god knows how many other sub-genres within the category. For each of these, and for each situation within, a different aperture may be appropriate.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

Before we get into that – first a warning.

Sharpness Issues

Wide Open

There are costs to different apertures. Wide open, most lenses will be soft because every part of each glass element in the lens is being put to work. Imperfection in the lenses, dirt, scratches, and the physics of light all combine to mess with your image sharpness. This is part of the reason that sharp, fast lenses cost so much. The glass has to be excellent to retain sharpness wide open.

Diffraction

Diffraction happens at the opposite end of the f-stop range. When the aperture is closed way down, images also show a reduction in sharpness, but not for the same reason. Rather, something called diffraction occurs. Diffraction is actually a term derived from physics of waves.

Take a look at the terrible hand-drawn illustrations I made below and you can see why I’m a photographer, not a painter. Hopefully, however, you’ll also learn something about diffraction. The lines on the left show waves moving across space. Think of them as light waves or ocean waves, it makes no difference.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

As they approach a wall with a large opening, the gap allows the waves though largely intact causing only a slight dispersion and curving of the incoming wave.

But apply a smaller opening (below), and suddenly those waves are quickly curved and dispersed.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

In photography, a large aperture will cause relatively little change in the light waves entering your camera, but a small aperture will force a small amount of light to spread, disperse, and curve before hitting the sensor unequally, and with less intensity. This results in a loss of sharpness.

While the physics of it all is interesting, when it comes to photography, what you really need to know is that very small apertures will be less sharp than mid-range apertures.

Attaining Sharpness

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

It’s probably clear to you by now that if you wish to achieve maximum sharpness then neither fully wide open nor closed down apertures are the best. Rather, sharpness can be found somewhere in between. For most lenses, 2-stops down from wide open is the sharpness sweet-spot.

Perhaps that is why f/16 is so popular in landscape photography, it’s a good compromise between sharpness and depth of field.

So What Now?

We are back where we started, right? Just shoot at f/16.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

Well if tack-sharpness were the end all and be all of landscape photography, that would probably be the case.

However, sometimes you may wish to sacrifice some lens sharpness for shallow depth of field or suffer some diffraction blur for the sake of attaining a long shutter speed.

Detail Shots

Landscape details are those small parts of a landscape that catch your photographic interest. This may be a cluster of autumn leaves, a stone in a tundra meadow, or light upon snow-covered trees, among many other possibilities.

In such situations, you may want to isolate that interesting subject from a cluttered background. You can do that by embracing the shallow depth of field, through the use of a fast (large) aperture.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

I was photographing a couple of years back on a crisp autumn day. Frost covered the meadow I was walking around, and each stem of grass glittered in the early morning sun. Spotting one particular stem, rising from the rest, I paused. I wanted to isolate that single piece of grass.

So, using a 70-200mm f2.8 lens, I opened the aperture wide to create a shallow depth of field, composed, and shot.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

I’ve used this strategy, again and again, with my landscape photography. Shooting autumn colors, I frequently wish to isolate a single leaf, or patch of foliage from a distracting backdrop. Fast apertures and shallow depth of field are the only way to do this.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

In such cases, I’m happy to sacrifice a bit of sharpness.

Aerial shots

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

In aerial photography, you are always well separated from the landscape you are photographing (if you aren’t, you’d have much greater concerns than making photos). Thus, depth of field is not your top concern.

Meanwhile, the vibration of the airplane or helicopter’s engine is a much greater risk for lack of sharpness than setting your aperture too open.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

When I’m shooting aerials, I open my aperture wide open to maximize shutter speed. When you need a shutter speed of around 1/1000th of a second, minimum, a wide open aperture is the only practical way to go.

Long Exposures

Purposefully dragging your shutter for multi-second (or even multi-minute) exposures requires you to greatly reduce the light hitting your sensor. Even with a low ISO and a neutral density filter, trying to get a long exposure on a bright day is impossible without stopping down your aperture.

I was shooting along a river in Alaska a couple of years back, on assignment for a conservation organization. It was a bright afternoon, but some clouds were breaking up the sky making for decent photography conditions.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

I knew I would be unable to return there in the evening, so I needed to make the most of the situation. Despite the bright afternoon light, I still wanted a long exposure of the flowing water.

I lowered my ISO to its minimum setting (50), put on a 4-stop neutral density filter, and sacrificing a bit of sharpness, stopped my aperture down to f/22.

With that combination, I was able to get an 8-second exposure of the flowing river. The rippled water blurred pleasingly to a ghostly reflective surface, and I got the image I wanted.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

Night Photography

Here in Alaska, I spend a lot of time shooting the Northern Lights and taking out visiting photographers to do the same. There is a myth about Aurora photography that you need a long exposure – you don’t. In fact, you really don’t want one.

One of the things that make the Aurora Borealis so spectacular is the details in the curtains, the shifting colors, and the near-constant motion. A long exposure, anything more than a few seconds, will cause all those details to blur away. Fast shutter speeds (or as fast as you can manage) are far, far better.

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice

Understanding Aperture and Landscape Photography - Why F16 Isn't the Only Choice - night sky aurora

To get a fast shutter speed at night, you have to be willing to open your aperture all the way up, sharpness loss, be damned. High ISOs and fast lenses set wide open will allow shutter speeds fast enough to capture the details of a fast-moving aurora display.

Conclusion

So sure, in classic landscape photography, with a foreground element, and background scenery, you’ll want a deep depth of field and maximum sharpness. In those conditions, by all means, set your aperture to f/16 and forget about it. But such situations are not all there is to landscape photography.

Your cameras and lenses are equipped with many tools. To say there is only one that is “right” is like saying that the only tool a carpenter needs is a hammer. Sure a hammer is the perfect tool for a carpenter when he needs to bang in a nail, but it’s really lousy at cutting boards.

What is the lesson here? Set your aperture for what is needed for the scene, not how you’ve been told it should be by someone else. “They” say a lot of things. You don’t always have to listen to them.

The post Understanding Aperture and Landscape Photography – Why F16 Isn’t the Only Choice appeared first on Digital Photography School.

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Teardown video shows how the Galaxy S9 variable aperture works

15 Mar

The YouTube channel JerryRigEverything recently tore down (or rather tore apart…) the new Samsung Galaxy S9, giving us the closest look at yet at the new smartphone’s camera hardware. So if the still images in the iFixit teardown weren’t quite interesting enough for you, this might just do the trick.

The camera teardown is about one minute and a half long, running from the 3:30 mark until about 5:00. In that time, we get to see the Optical Image Stabilization system demoed and torn open to reveal the magnets inside:

Then, we get really close look at one of the phone’s most intriguing features: the variable aperture. It turns out the system works using a little lever on the side of the housing. So when the phone senses that there is enough light to justify it, it’ll flip this switch electronically and switch from it’s world’s-brightest F1.5 setting to F2.4.

Here’s a very close look at that switch in action:

You can check out the full teardown in the video at the top. And stay tuned, because we’ll be bringing you a full smartphone camera review of the Samsung Galaxy S9 just as soon as we can put a unit through its paces.

Articles: Digital Photography Review (dpreview.com)

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iFixit teardown finds Samsung Galaxy S9 Plus difficult to repair, shows dual-blade aperture

12 Mar

The team at iFixit.com has taken apart Samsung’s brand new Galaxy S9 Plus flagship smartphone and given it a pretty low repairability score of 4/10 points. The testers liked the fact that many components are modular and can be replaced independently, but found accessing the battery to be an unnecessary challenge.

The device’s display and glass back also increase the chance of breakage, and make repairs difficult to start. The need to remove the rear glass panel and disassemble the entire phone when replacing the display was listed as another negative point.

During the teardown, the iFixit crew also had a closer look at the smartphone’s 12MP optically-stabilized camera module with 2x zoom. The dual-camera comes as a single unit on a single PCB and with a single connector. Inside, they found the DRAM chips that power the 960 fps super-slow-motion mode.

The S9 Plus main camera uses a variable F1.5/F2.4 aperture, and the close-up images show the design. Instead of a diaphragm-design with several aperture blades, the lens comes with a simpler construction, comprising of two rotating, ring-like blades for switching between its two aperture values.

Head over to iFixit.com to read the full report.

Articles: Digital Photography Review (dpreview.com)

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Samsung unveils Galaxy S9 with variable aperture and super-slow-motion

26 Feb

Samsung has unveiled its new Galaxy S series flagship phones, the Galaxy S9 and Galaxy S9+, at the Mobile World Congress in Barcelona today and the new devices’ cameras deliver what Samsung’s teaser videos had been promising: Variable aperture, super-slow-motion and AR emojis.

The main camera features an aperture that can switch between F1.5 for low light shooting and F2.4 in brighter light. The new aperture system is coupled with a 12MP “Super Speed” sensor that features an integrated DRAM module for more processing power when using computational imaging to reduce noise and increase image detail.

The additional processing power also comes in handy for the new super-slow-motion mode. Like recent high-end Sony Xperia models, the Galaxy S9 devices can record HD video at 960 frames per second for 0.2 seconds. That translates into 6 seconds playback time at 30 frames per second. Slow-motion videos can be converted into gifs or set as background videos on the home screen.

The new AR Emoji function allows you to create and personalize emojis based on your own face, using the front camera. In a second step emojis can be animated using facial expressions. You can save up to 18 AR emojis and share them with users of any smartphone, not just Samsung models.

New features aside, the camera specs haven’t changed too much compared to existing models. The main camera features optical image stabilization and a Dual-Pixel AF. The Galaxy S9+ comes with a secondary tele-lens, similar to what we’ve seen on the Galaxy Note 8, allowing for better-quality zooming and a bokeh mode. The longer lens comes with optical image stabilization and an F2.4 aperture. The front camera on both models combines an 8MP pixel count with a fast F1.7 aperture.

Camera aside, the main difference between the two new models is display size. The Galaxy S9 comes with a 5.77″ AMOLED display, the S9+ equivalent is a little larger at 6.22″. Both screens offer WQHD resolution.

Both models come with a microSD card slot and a headphone jack and are powered by Samsung’s Exynos 9 Series 9810 Octa Core chipset. In the Euro-zone the Galaxy S9 with 64GB of storage will be available from March for 850 Euros (approximately USD 1045). The S9+ is 100 Euros (approximately USD 120)more. No details on pricing in other regions have been released yet.

Articles: Digital Photography Review (dpreview.com)

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