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Bokeh

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This article is about the photographic usage of the term "Bokeh". For other uses of the term, please refer to Bokeh (disambiguation)
Bokeh on a photo shot with an 85mm lens and 70mm aperture, which corresponds to f/1.2

Bokeh (derived from Japanese, a noun boke 暈け, meaning "blur" or "haze") is a photographic term referring to the æsthetic quality of the out-of-focus areas of an image produced by a camera lens using a shallow depth of field. Essentially, bokeh is an aesthetic and qualitative measure of light distortion in the out-of-focus areas of an image, and is primarily caused by lens aberrations and aperture shape.

Origin

An example of the bokeh effect produced by a Canon 85mm prime f/1.8 lens.

Mike Johnston, former editor of Photo Techniques magazine, claims to have coined the bokeh spelling to suggest the correct pronunciation to English speakers, replacing the previous spelling boke that derived directly from the Japanese word for "fuzzy" and had been in use at least since 1996. It can be Template:Pron-en or /ˈboʊkə/ (boke-aay or boke-uh).

The term bokeh has appeared in photography books at least since 2000.

Description

An extremely shallow depth of field, a common effect of macro lenses, emphasizes bokeh
The depth of field is the region where the size of the circle of confusion is less than the resolution of the human eye. Circles with a diameter less than the circle of confusion will appear to be in focus.

Although difficult to quantify, some lenses enhance overall image quality by producing more subjectively pleasing out-of-focus areas. Good bokeh is especially important for large-aperture lenses, macro lenses, and long telephoto lenses because they are typically used with a shallow depth of field. Bokeh is also important for medium telephoto "portrait lenses" (typically 85–150 mm on 35-mm format) because the photographer would typically select a shallow depth of field (wide aperture) to achieve an out-of-focus background and make the subject stand out

The bokeh produced by a Catadioptric lens (also called a mirror lens).

Bokeh characteristics may be quantified by examining the image's circle of confusion. In out-of-focus areas, each point of light becomes an image of the aperture, generally a more or less round disc. Depending how a lens is corrected for spherical aberration, the disc may be uniformly illuminated, brighter near the edge, or brighter near the center. Lenses that are poorly corrected for spherical aberration will show one kind of disc for out-of-focus points in front of the plane of focus, and a different kind for points behind. This may actually be desirable, as blur circles that are dimmer near the edges produce less-defined shapes which blend smoothly with the surrounding image. Lens manufacturers including Nikon, Canon, and Minolta make lenses designed with specific controls to change the rendering of the out-of-focus areas.

Catadioptric lens bokeh seen in more detail.

The shape of the aperture has a great influence on the subjective quality of bokeh. When a lens is stopped down to something other than its maximum aperture size (minimum f-number), out-of-focus points are blurred into the polygonal shape of the aperture rather than perfect circles. This is most apparent when a lens produces undesirable, hard-edged bokeh, therefore some lenses have aperture blades with curved edges to make the aperture more closely approximate a circle rather than a polygon. Lens designers can also increase the number of blades to achieve the same effect. Traditional "Portrait" lenses, such as the "fast" 85mm focal length models for 35mm cameras often feature almost circular aperture diaphragms, as is the case with Canon's EF 85mm f/1.2L II lens and Nikon's 85mm f/1.4D, and are generally considered exceptional performers. A catadioptric telephoto lens displays bokehs resembling doughnuts, because its secondary mirror blocks the central part of the aperture opening.

Leica lenses, especially vintage ones, are often claimed to excel in bokeh quality, although Leica photographers have tended to make more use of maximum aperture due to the lenses' ability to maintain good sharpness at wide openings and the suitability of the Leica camera system for available-light theatre work and reportage. Consequently, more evidence is needed to determine whether Leica's lens designers deliberately set out to produce pleasing bokeh.

Minolta/Sony STF 135mm f/2.8 * (STF standing for Smooth Transition Focus) is a lens which is specifically designed to produce pleasing bokeh. An apodization filter is used to soften the aperture edges which results in a smooth defocused area with gradually fading circles. Those qualities make it the only lens of this kind currently on the market.

Recently, a research group at MIT Media Lab showed that the bokeh effect can be used to make imperceptibly small barcodes, or bokodes. By using markers as small as 2.5 microns, if the marker is viewed out of focus through an ordinary camera, the resulting bokeh is large enough to scan the information in the barcode.

Emulation

No bokeh
Faux (synthetic) bokeh

Bokeh can be simulated by convolving the image with a kernel that corresponds to the image of an out-of-focus point source taken with a real camera. Diffraction may alter the effective shape of the blur. Some graphics editors have a filter to do this, usually called "Lens Blur",. It can also be simulated using the Quartz Composer Defocus filter in Mac OS X Leopard, though Gaussian blur is often used to save time or when realistic bokeh is not required.

See also

References

  1. Tom Ang (2002). Dictionary of Photography and Digital Imaging: The Essential Reference for the Modern Photographer. Watson–Guptill. ISBN 0817437894.
  2. Johnston, Mike (2004) The Sunday Morning Photographer, April 4, 2004: Bokeh in Pictures. The Luminous Landscape. Retrieved on July 3, 2009.
  3. Merklinger, Harold (1996) Understanding Boke. The Luminous Landscape. Retrieved on July 3, 2009.
  4. Christopher Nisperos, Roger Hicks (2000). Hollywood Portraits: Classic Shots and how to Take Them. Amphoto Books. ISBN 0817440208.
  5. Mohan, A., Woo, G, Hiura, S, Smithwick, Q, Raskar, R. Bokode: Imperceptible Visual Tags for Camera Based Interaction from a Distance. ACM SIGGRAPH 2009.
  6. Adobe Photoshop CS3 Livedocs. "Add lens blur".{{cite web}}: CS1 maint: numeric names: authors list (link)

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