- Science of photography
Science of photography refers to the use of science, such as
chemistryand physics, in all aspects of photography. This applies to the camera, its lenses, physical operation of the camera, electronic camera internals, and the process of developing film in order to take and develop pictures properly. [Cite web
url = http://www.photography.com/topics/science-of-photography/
title = Science of Photography
accessdate = 2007-05-21]
Law of Reciprocity
:Exposure ∝ ApertureArea × ExposureTime × SceneLuminance
The law of reciprocity describes how light intensity and duration trade off to make an exposure—it defines the relationship between
shutter speedand aperture, for a given total exposure. Changes to any of these elements are often measured in units known as "stops"; a stop is equal to a factor of two.
Halving the amount light exposing the film can be achieved either by:
# Closing the aperture by one stop
# Decreasing the shutter time (increasing the shutter speed) by one stop
# Cutting the scene lighting by halfLikewise, doubling the amount of light exposing the film can be achieved by the opposite of one of these operations.
The luminance of the scene, as measured on a reflected
light meter, also affects the exposure proportionately. The amount of light required for proper exposure depends on the film speed; which can be varied in stops or fractions of stops. With either of these changes, the aperture or shutter speed can be adjusted by an equal number of stops to get to a suitable exposure.
Light is most easily controlled through the use of the camera's aperture (measure in f-stops), but it can also be regulated by adjusting
shutter speed. Using faster or slower film is not usually something that can be done quickly, at least using roll film. Large formatcameras use individual sheets of film and each sheet could be a different speed. And digital cameras can easily adjust the film speed they are simulating. Also, if you're using a larger format camera with a polaroid back, you can switch between backs containing different speed polaroids.
For example, starting with an exposure of 1/60th at f/|16, the depth-of-field could be made shallower by opening up the aperture to f/|4, an increase in exposure of 4 stops. To compensate, the shutter time would need to be increased as well by 4 stops, that is, adjust exposure time down to 1/1000th. Closing down the aperture limits the resolution due to the diffraction limit.
The reciprocity law specifies the total exposure, but the response of a photographic material to a constant total exposure may not remain constant for very long exposures in very faint light, or very short exposures in very bright light. This is known as "reciprocity failure" of the material (film, paper, or sensor).
A photographic lens is usually composed of several lens elements, which combine to reduce the effects of
chromatic aberration, coma, spherical aberration, and other aberrations. A simple example is the three-element Cooke triplet, still in use over a century after it was first designed, but many current photographic lenses are much more complex.
Most but not all aberrations can be reduced by using a smaller aperture. They can also be reduced dramatically by using an aspheric element, but these are more complex to grind than spherical or cylindrical lenses. However, with modern manufacturing techniques the extra cost of manufacturing aspherical lenses is decreasing, and small aspherical lenses can now be made by molding, allowing their use in inexpensive consumer cameras.
Fresnel lenses are not used in cameras even though they are extremely light and cheap, because they produce poor image quality.
All lens design is a compromise between numerous factors, not excluding cost.
Zoomlenses (i.e. lenses of variable focal length) involve additional compromises and therefore normally do not match the performance of prime lenses.
When a camera lens is focused to project an object some distance away onto the film or detector, the objects that are closer in distance, relative to the distant object, are also "approximately" in focus. The range of distances that are nearly in focus is called the
depth of field. Depth of field generally increases with decreasing aperture diameter (increasing f-number). The unfocused blur outside the depth of field is sometimes used for artistic effect in photography. The subjective appearance of this blur is known as bokeh.
If the camera lens is focused at or beyond its
hyperfocal distance, then the depth of field becomes large, covering everything from half the hyperfocal distance to infinity. This effect is used to make "focus free" or fixed-focus cameras.
Motion blur is caused when either the camera or the subject moves during the exposure. This causes a distinctive streaky appearance to the moving object or the entire picture (in the case of camera shake).
Motion blur can be used to create the feeling of speed. An example of this is the technique of "panning", where the camera is moved so it follows the subject, which is usually fast moving, such as a car. Done correctly, this will give an image of a clear subject, but the background will have motion blur, giving the feeling of movement. This is one of the more difficult photographic techniques to master, as the movement must be smooth, and at the correct speed. A subject that gets closer or further away from the camera may further cause focusing difficulties.
Light trails is another photographic effect where motion blur is used. Photographs of the lines of light visible in long exposure photos of roads at night are one example of effect. [http://www.treklens.com/gallery/Africa/South_Africa/photo102894.htm] This is caused by the cars moving along the road during the exposure. The same principle is used to create star trail photographs.
Generally, motion blur is something that is to be avoided and can be done in several different ways. Motion blur due to camera shake can usually be prevented by limiting the shutter speed to the reciprocal of the focal length of the lens being used, or the closest shutter speed available. Therefore, a 50mm lens should be used at a minimum speed of 1/50 second, and a 300 mm lens at 1/250 of a second. This can cause difficulties when used in low light situations.
Motion blur due to subject movement can usually be prevented by using a faster shutter speed. The exact shutter speed will depend on the speed that the subject is moving at. For example, a very fast shutter speed will be needed to "freeze" the rotors of a helicopter, whereas a slower shutter speed will be needed to freeze a runner.
A tripod may be used to avoid motion blur due to camera shake. This will stabilize the camera during the exposure. A tripod is recommended for exposure times more than about 1/15 seconds. There are additional techniques in conjunction with a tripod to ensure that the camera remains perfectly still. They may use a remote release, such as a cable release or
infraredremote to activate the shutter to avoid any movement when the button is pressed. Most modern Single-lens reflex camera(SLR) have a mirror lock-upfeature that eliminates the small amount of shake produced by the mirror flipping up. Users of compact cameras can use the camera's self timer to help reduce camera movement.
Focus is the tendency for light rays to reach the same place on the
Charge-coupled device(CCD) or film, independent of where they pass through the lens. For clear pictures, the focus is adjusted for distance, because at a short object distance the rays reach different parts of the lens with different angles. In modern photography, focusing is often accomplished automatically.
autofocussystem in modern SLRs use a sensor in the mirrorbox to measure contrast. The sensor's signal is analyzed by an Application-specific integrated circuit(ASIC), and the ASIC tries to maximize the contrast pattern by moving lens elements. The ASICs in modern cameras also have special algorithmsfor predicting motion, and other advanced features.
Aberrations are the blurring and distorting properties of an
optical system. A high quality lens will produce a smaller amount of aberrations. Spherical aberrationoccurs due to the increased refractionof light rays that occurs when rays strike a lens, or a reflection of light rays that occurs when rays strike a mirror near its edge in comparison with those that strike nearer the center. This is dependent on the focal length of a spherical lens and the distance from its center. It is compensated by designing a multi-lens system or by using an aspheric lens. Chromatic aberrationis caused by a lens having a different refractive indexfor different wavelengthsof lightand the dependence of the optical properties on color. Blue light will generally bend more than red light. There are higher order chromatic aberrations, such as the dependence of magnification on color. Chromatic aberration is compensated by using a lens made out of materials carefully designed to cancel out chromatic aberrations.
Curved focal surface is the dependence of the first order focus on the position on the film or CCD. This can be compensated with a multiple lens optical design, but curving the film has also been used.
Film grain resolution
Black-and-whitefilm has a "shiny" side and a "dull" side. The dull side is the emulsion, a gelatin that suspends an array of silver halidecrystals. These crystals contain silver grains that determine how sensitive the film is to light exposure, and how fine or grainy the negative the print will look. Larger grains mean faster exposure but a grainier appearance; smaller grains are finer looking but take more exposure to activate. The graininess of film is represented by its ISO factor; generally a multiple of 10 or 100. Lower numbers produce finer grain but slower film, and vice versa.
Since light propagates as waves, the patterns it produces on the film are subject to the wave phenomena known as
diffraction; which limit the image resolution to features on the order of several times the wavelength of light. Diffraction is the main effect limiting the sharpness of optical images from lens that are stopped down to small apertures (high f-numbers), while aberrations are the limiting effect at large apertures (low f-numbers). Since diffraction cannot be eliminated, the best possible lens for a given operating condition (aperture setting) is one that produces an image whose quality is limited only by diffraction. Such a lens is said to be "diffraction limited."
The diffraction-limited optical spot size on the CCD or film is proportional to the
f-number(about equal to the f-number times the wavelength of light, which is near 0.0005 mm), making the overall detail in a photograph proportional to the size of the film, or CCD divided by the f-number. For a 35 mm camera with f/|11, this limit corresponds to about 6,000 resolution elements across the width of the film (36 mm / (11 * 0.0005 mm) = 6,500.
In other words, a camera cannot resolve two distant points unless their path lengths to the two sides of the open lens aperture differ by at least a half wave length; otherwise they will be both in phase at the same point on the film or CCD.
Contribution to noise (grain)
Light comes in particles and the energy of a light-particle (the
photon) is the frequency of the light times Planck's constant. A fundamental property of any photographic method is how it collects the light on its photographic plateor electronic detector.
CCDs and other photodiodes
Photodiodesare back-biased semiconductor diodes, in which an intrinsic layer with very few charge carriers prevents electric currents from flowing. Depending on the material, photons have enough energy to raise one electronfrom the upper full band to the lowest empty band. The electron and the "hole", or empty space were it was, are then free to move in the electric field and carry current, which can be measured. The fraction of incident photons that produce carrier pairs depends largely on the semiconductor material.
Photomultipliertubes are vacuum phototubes that amplify light by accelerating the photoelectrons to knock more electrons free from a series of electrodes. They are among the most sensitive light detectors but are not well suited to photography.
Aliasingcan occur in optical and chemical processing, but it is more common and easily understood in digital processing. It occurs whenever an optical or digital image is sampled or re-sampled at a rate which is too low for its resolution. Some digital cameras and scanners have anti-aliasingfilters to reduce aliasing by intentionally blurring the image to match the sampling rate. It is common for film developing equipment used to make prints of different sizes to increase the graininess of the smaller size prints by aliasing.
It is usually desirable to suppress both noise such as grain and detail of the real object that are too small to be represented at the sampling rate.
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