• Large (wide) aperture = small f-number e.g. f/1.2, f/2, f/2.8 = shallow depth of field = defocused background = ideal for portraits, macro.

Shallowdepth offield

In astronomy, the depth of focus Δ f {\displaystyle \Delta f} is the amount of defocus that introduces a ± λ / 4 {\displaystyle \pm \lambda /4} wavefront error. It can be calculated as[4][5]

Shallow depth of field enables you to throw background and foreground details so far out of focus that they're beyond recognition, directing the eye to the main focal point in the picture. For shallow depth of field you need to select the widest aperture possible e.g. f/1.2, f/2, f/2.8, f/3.5, f/4 (depending on your lens's capabilities). This is why many pros prefer lenses with the widest maximum apertures, as these allow depth of field to be truly minimised.

Depth offield photography aperture

• Scene modes: If your Nikon DSLR has scene modes, you can use these to sort out depth of field for you. Landscape scene mode automatically selects a narrow aperture to maximise depth of field, while portrait, sport and macro (close-up) modes set a wider aperture to minimise depth of field (although this is dependent on the lens you are using).

In small-format cameras, the smaller circle of confusion limit yields a proportionately smaller depth of focus. In motion-picture cameras, different lens mount and camera gate combinations have exact flange focal distance measurements to which lenses are calibrated.

Depth offield photography formula

To control depth of field, you need to choose the appropriate lens aperture, which means using a shooting mode that gives you control over the aperture. While you can use program (P) mode to do this in a limited way, you'll only get full control with aperture priority mode (A) or manual (M). In aperture priority, you select the aperture using the relevant command dial, and the camera sorts out the shutter speed; in manual, you can choose both the aperture and the shutter speed with the command dial.

Depth offield photography settings

The way your lens renders the out-of-focus points of light with very shallow depth of field is called bokeh (pronounced boh-keh), from the Japanese boke, meaning blur or haze. Bokeh is affected by the shape of the lens's diaphragm blades (the aperture), so a lens with more circular-shaped blades will have rounder, softer orbs of out-of-focus highlights, whereas a lens with an aperture that is more hexagonal in shape will create more hexagonal highlights.

where t is the total depth of focus, N is the lens f-number, c is the circle of confusion, v is the image distance, and f is the lens focal length. In most cases, the image distance (not to be confused with subject distance) is not easily determined; the depth of focus can also be given in terms of magnification m:

The simple formula is often used as a guideline, as it is much easier to calculate, and in many cases, the difference from the exact formula is insignificant. Moreover, the simple formula will always err on the conservative side (i.e., depth of focus will always be greater than calculated).

The aperture is the opening in the lens's diaphragm through which light passes. It's calibrated in f-stops, written as numbers (e.g.1.4, 2, 2.8, 4, 5.6, 8, 11, 16 and 32). The smaller the f-number, the larger the aperture, allowing more light through to hit the sensor, while the higher f-numbers mean a smaller aperture, allowing less light through.

Depth offield photography

Following historical convention, the circle of confusion is sometimes taken as the lens focal length divided by 1000 (with the result in same units as the focal length);[2][3] this formula makes most sense in the case of normal lens (as opposed to wide-angle or telephoto), where the focal length is a representation of the format size. This practice is now deprecated; it is more common to base the circle of confusion on the format size (for example, the diagonal divided by 1000 or 1500).[3]

The same factors that determine depth of field also determine depth of focus, but these factors can have different effects than they have in depth of field. Both depth of field and depth of focus increase with smaller apertures. For distant subjects (beyond macro range), depth of focus is relatively insensitive to focal length and subject distance, for a fixed f-number. In the macro region, depth of focus increases with longer focal length or closer subject distance, while depth of field decreases.

Depth of field is the zone of acceptable sharpness around the point you choose to focus your image – how sharp or blurred are the areas behind and in front of your subject. With shallow depth of field, only a narrow section of the image looks sharp and everything else is blurred, while wide depth of field keeps everything in the picture acceptably sharp from front to back. You control the depth of field by altering the lens aperture.

Another way to ensure a pleasing, very shallow depth of field is to use a telephoto or long prime lens with a focal length of 300, 400 of 500mm. Its narrower angle of view compared to that offered by more wideangle lenses means the area of background captured is smaller and more magnified, which renders it even more blurred out, which can be very pleasing in portraits.

Depth offield examples

For really good bokeh, you need to use as fast lens, with at least an f/2.8 aperture, and shoot as wide open as possible – around f/2, f/1.8 or f/1.4 is ideal. Fast prime lenses, such as the 50mm f/1.8D NIKKOR, are ideal. But don't worry if you don't own a very fast lens, or if you're shooting with a COOLPIX that doesn't have manual or aperture priority options. By increasing the distance between the background and your subject, you can still get bokeh in images shot at mid-range apertures like f/5.6 or f/8 as long as you shoot using a larger focal length.

Do you want only part of your shot to be in focus, or all of it? If it's a landscape, 'all' is most likely your answer, but for portraits and wildlife, you might prefer to lose a distracting background. Either way, what you're doing is playing around with depth of field.

Large (wide) depth of field helps to keep everything in the frame acceptably sharp from front to back, making it ideal for many landscape situations. To achieve it, you'll need to set as small an aperture as possible e.g. f16, and use a focus point about one third of the way into the scene. You can also use a large depth of field to keep two objects at different distances away sharp in frame. Just switch to manual focus, then focus on the midpoint between them.

Depth of focus is a lens optics concept that measures the tolerance of placement of the image plane (the film plane in a camera) in relation to the lens. In a camera, depth of focus indicates the tolerance of the film's displacement within the camera and is therefore sometimes referred to as "lens-to-film tolerance".

While depth of field is generally measured in macroscopic units such as meters and feet, depth of focus is typically measured in microscopic units such as fractions of a millimeter or thousandths of an inch. In optometry depth of focus is usually measured in dioptres.

Shallowdepth offield photography

The magnification depends on the focal length and the subject distance, and sometimes it can be difficult to estimate. When the magnification is small, the formula simplifies to

The downside of maximising depth of field is that the required narrow aperture means a lot less light is now hitting the sensor, so you'll also need to increase the ISO and/or use a slower shutter speed. Slower shutter speeds increase the risk of camera-shake if you're shooting hand-held, so it's advisable to use a tripod and shutter release to get your shot. You'll get the best results with a wideangle lens or the wideangle end of a zoom.

Depth offield photography examples

The choice to place gels or other filters behind the lens becomes a much more critical decision when dealing with smaller formats. Placement of items behind the lens will alter the optics pathway, shifting the focal plane. Therefore, often this insertion must be done in concert with stopping down the lens in order to compensate enough to make any shift negligible given a greater depth of focus. It is often advised in 35 mm motion-picture filmmaking not to use filters behind the lens if the lens is wider than 25 mm.

• Small (narrow) aperture = large f-number e.g. f/16, f/22 = deep/wide depth of field = picture sharp front to back = ideal for landscapes.

The phrase depth of focus is sometimes erroneously used to refer to depth of field (DOF), which is the distance from the lens in acceptable focus, whereas the true meaning of depth of focus refers to the zone behind the lens wherein the film plane or sensor is placed to produce an in-focus image. Depth of field depends on the focus distance, while depth of focus does not.

All lenses have a maximum aperture, and on a NIKKOR lens you'll see this inscribed on the barrel e.g. f/3.5-5.6 or 1:3.5-5.6, where '3.5' and '5.6' refer to the maximum aperture for the short and long ends of the zoom range respectively. A lens is said to be 'fast' if its maximum aperture is a very small number – usually f/1.2 to f/4 – as that means it will open very wide, letting in lots of light and enabling faster shutter speeds in lower light conditions.

There are a few other parts to the equation. One is your camera's sensor – an FX (full-frame) sensor will give you a shallower depth of field than a DX sensor at any given aperture. Another is how close you are to your subject. But the key thing to remember is that the lower your f-number, the less depth of field and the blurrier the background; the higher the f-number, the greater the depth of field and therefore the sharper the background.

Depth of focus can have two slightly different meanings. The first is the distance over which the image plane can be displaced while a single object plane remains in acceptably sharp focus;[1][2][clarify] the second is the image-side conjugate of depth of field.[2][clarify] With the first meaning, the depth of focus is symmetrical about the image plane; with the second, the depth of focus is slightly greater on the far side of the image plane.