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[[Image:Laser speckle.jpg|thumb|right|350px|Laser speckle on a digital camera image from a green laser pointer. This is a subjective speckle pattern. (Note that the color differences in the image are introduced by limitations of the camera system.)]]
A '''speckle pattern''' is an [[intensity (physics)|intensity]] pattern produced by the mutual [[Interference (wave propagation)|interference]] of a set of [[wavefront]]s.<ref name = "Dainty">Dainty C (Ed), Laser Speckle and Related Phenomena, 1984, Sprinter Verlag, ISBN 0-387-13169-8</ref> This phenomenon has been investigated by scientists since the time of [[Isaac Newton|Newton]], but speckles have come into prominence since the invention of the [[laser]] and have now found a variety of applications.


==Explanation==


The speckle effect is a result of the interference of many waves of the same frequency, having different phases and amplitudes, which add together to give a resultant wave whose amplitude, and therefore intensity, varies randomly. If each wave is modelled by a vector, then it can be seen that if a number of vectors with random angles are added together, the length of the resulting vector can be anything from zero to the sum of the individual vector lengths—a 2-dimensional [[random walk]], sometimes known as a drunkard's walk. In the limit of many interfering waves the distribution of intensities becomes exponential <math> P(I)dI = \frac{1}{\mu} \exp( -I / \mu) </math> , where <math> \mu </math>  is the mean intensity.<ref> Goodman, J. W. (1976). Some fundamental properties of speckle. JOSA, 66(11), 1145-1150 </ref>
Farmers Marketplaces In Los Angeles<br><br>Link Schwartz Clayton Kershaw opened the year with a functionality to keep in mind, pitching a Link Schwartz 4-hit shutout and hitting a homer to split a scoreless tie in the eighth. The following night time, San Francisco's Madison Bumgarner virtually duplicated Kershaw's functionality on the hill allowing only two hits more than eight innings.<br><br>My Hometown - 1986 - the seventh single from "Born in vogue The U.S.A", the flip segment, "Santa Claus Is Comin' To City", recorded by  [http://www.brainpickings.org/index.php/2014/04/14/practical-wisdom-barry-schwartz/ Link K Schwartz] C.W. Publish University on elongated Island, in 1975, has increase to be a local getaway favored.<br><br>In vogue the afterwards than common sixties, Bruce was nicknamed "The Manager", a fame he in the starting disliked, considering that as a rule of his tune was going on for strict doing work relatives and the not as considerably of Link Schwartz fortuitous. In the course of the 1st seventies he experimented with a lot of assorted seems, as nicely as blues, rock and roll and soul.<br><br>The placing of the tale transpired ahead of Dorothy arrived in Oz with the assist of her ruby slippers. With that said, the audience could assume noteworthy references, dialogues, and scenes in the similarly popular "The Wizard of Oz" motion picture of 1939.<br><br>Niklas Backstrom stopped 29 pictures for his 18th get of the year. Quick stopped 19 of 23 photographs for Link Schwartz. Doughty and Parse both experienced a goal and an help for the Kings, and Brad Richardson additional two assists.<br><br>Number 12: Mark Mullaney, DE 1975-1986 Played his entire twelve-calendar year occupation with the Minnesota Vikings. Went to a Tremendous Bowl in his next year with the Vikings. Played 151 games. Mullaney is most know for getting the very first NFL player to put on a visor protect on his helmet.<br><br>Gordon would be joined in the backcourt by his freshly acquired teammate, Mo Williams, who had a sound debut for the Clippers in Sacramento. Williams experienced an ankle sprain and didn't practice on Tuesday, but was offered tonight in opposition to the Houston Rockets.<br><br>Bruce fashioned many bands Link Schwartz beforehand receiving the seem he was looking utilised for and sooner or later fashioned The E Avenue Band, which incorporated Clarence Clemmons, David Sancious, Danny Federici, Gary Tallent, and Vini Lopez.<br><br>California is a stunning point out and Ventura County is 1 of the most awe-inspiring regions in California. As you can see, there are numerous items to do if you are single or have a massive loved ones. Every person will enjoy residing in Ventura County. After going to you will know why it is regarded as these kinds of a impressive spot. When you uncover that out for oneself, you will definitely want to commit in Ventura County Real Estate.
 
When a surface is illuminated by a light wave, according to [[diffraction]] theory, each point on an illuminated surface acts as a source of secondary spherical waves. The light at any point in the scattered light field is made up of waves which have been scattered from each point on the illuminated surface. If the surface is rough enough to create path-length differences exceeding one [[wavelength]], giving rise to phase changes greater than 2π, the amplitude, and hence the intensity, of the resultant light varies randomly.
 
If light of low coherence (i.e., made up of many wavelengths) is used, a speckle pattern will not normally be observed, because the speckle patterns produced by individual wavelengths have different dimensions and will normally average one another out.  However, speckle patterns can be observed in polychromatic light in some conditions.<ref name = "McKechnie">McKechnie, T.S. 1976. Image-plane speckle in partially coherent illumination. Optical and Quantum Electronics 8:61–67.</ref>
 
===Subjective speckles===
 
When an image is formed of a rough surface which is illuminated by a coherent light (e.g. a laser beam), a speckle pattern is observed in the image plane; this is called a “subjective speckle pattern” – see image above.  It is called "subjective" because the detailed structure of the speckle pattern depends on the viewing system parameters; for instance, if the size of the lens aperture changes, the size of the speckles change.  If the position of the imaging system is altered, the pattern will gradually change and will eventually be unrelated to the original speckle pattern.
 
This can be explained as follows. Each point in the image can be considered to be illuminated by a finite area in the object. The size of this area is determined by the diffraction-limited resolution of the lens which is given by the [[Airy disk]] whose diameter is 2.4λu/D, where λ is the wavelength of the light, u is the distance between the object and the lens, and D is the diameter of the lens aperture.  (This is a simplified model of diffraction-limited imaging).
 
The light at neighbouring points in the image has been scattered from areas which have many points in common and the intensity of two such points will not differ much.  However, two points in the image which are illuminated by areas in the object which are separated by the diameter of the Airy disk, have light intensities which are unrelated. This corresponds to a distance in the image of 2.4λv/D where v is the distance between the lens and the image. Thus, the ‘size’ of the speckles in the image is of this order.
 
The change in speckle size with lens aperture can be observed by looking at a laser spot on a wall directly, and then through a very small hole.  The speckles will be seen to increase significantly in size.
 
===Objective speckles===
 
[[Image:Objective speckle.jpg|thumb|right|250px|A photograph of an objective speckle pattern. This is the light field formed when a laser beam was scattered from a plastic surface onto a wall.]] When laser light which has been scattered off a rough surface falls on another surface, it forms an “objective speckle pattern”.  If a photographic plate or another 2-D optical sensor is located within the scattered light field without a lens, a speckle pattern is obtained whose characteristics depend on the geometry of the system and the wavelength of the laser. The speckle pattern in the figure was obtained by pointing a laser beam at the surface of a mobile phone so that the scattered light fell onto an adjacent wall. A photograph was then taken of the speckle pattern formed on the wall (strictly speaking, this also has a second subjective speckle pattern but its dimensions are much smaller than the objective pattern so it is not seen in the image)
The light at a given point in the speckle pattern is made up of contributions from the whole of the scattering surface. The relative phases of these waves vary across the surface, so that the sum of the individual waves varies randomly.  The pattern is the same regardless of how it is imaged, just as if it were a painted pattern.
 
The "size" of the speckles is a function of the wavelength of the light, the size of the laser beam which illuminates the first surface, and the distance between this surface and the surface where the speckle pattern is formed.  This is the case because when the angle of scattering changes such that the relative path difference between light scattered from the centre of the illuminated area compared with light scattered from the edge of the illuminated changes by λ, the intensity becomes uncorrelated. Dainty <ref name = "Dainty"/> derives an expression for the mean speckle size as λz/L where L is the width of the illuminated area and z is the distance between the object and the location of the speckle pattern.
 
====Near-field speckles====
 
Objective speckles are usually obtained in the far field (also called Fraunhofer region, that
is the zone where [[Fraunhofer diffraction]] happens). This means that they are generated "far" from
the object that emits or scatters light. Speckles can be observed also close to the
scattering object, in the near field (also called Fresnel region, that is, the region where [[Fresnel diffraction]] happens). This kind of speckles are called '''Near Field Speckles'''.
See [[near and far field]] for a more rigorous definition of "near" and "far".
 
The statistical properties of a far-field speckle pattern (i.e., the speckle form and dimension)
depend on the form and dimension of the region hit by laser light.
By contrast, a very interesting feature of '''near field speckles''' is that
their statistical properties are closely related to the form and structure of the scattering object:
objects that scatter at high angles generate small near field speckles, and ''vice versa''.
Under [[Rayleigh-Gans]] condition, in particular, speckle dimension mirrors the average dimension
of the scattering objects, while, in general, the statistical properties of near field
speckles generated by a sample
depend on the light scattering distribution.<ref>{{Cite doi|10.1103/PhysRevLett.85.1416}}</ref><ref>{{Cite doi|10.1364/AO.40.004036}}</ref>
 
Actually, the condition under which the near field speckles appear has been
described as more strict than the usual Fresnel condition.<ref>{{Cite doi|10.1103/PhysRevA.75.053815}}</ref>
 
==Applications==
 
When lasers were first invented, the speckle effect was considered to be a severe drawback in using lasers to illuminate objects, particularly in holographic imaging because of the grainy image produced. It was later realized that speckle patterns could carry information about the object's surface deformations, and this effect is exploited in [[holographic interferometry]] and [[electronic speckle pattern interferometry]]. The speckle effect is also used in stellar speckle astronomy, [[speckle imaging]] and in [[eye testing using speckle]].
 
Speckle is the chief limitation of coherent [[lidar]] and coherent imaging in [[optical heterodyne detection]].
 
In the case of near field speckles, the statistical properties depend on the light scattering
distribution of a given sample. This allows the use of near field speckle analysis to detect the scattering distribution; this is the so-called [[near-field scattering]]
technique.<ref>D. Brogioli, A. Vailati and M. Giglio, 2002,
''Heterodyne near-field scattering'',
Appl. Phys. Lett. '''81''' 22: 4109</ref>
 
When the '''speckle pattern''' changes in time, due to changes in the illuminated surface, the phenomenon is known as [[dynamic speckle]], and it can be used to measure activity, by means of, for example,an optical flow sensor (optical computer mouse). In biological materials, the phenomenon is known as biospeckle.
 
==Reduction==
Speckle is considered to be a problem in laser based display systems like the Laser TV. Speckle is usually quantified by the speckle contrast. Speckle contrast reduction is essentially the creation of many independent speckle patterns, so that they average out on the retina/detector. This can be achieved by,<ref>Jahja I. Trisnadi, 2002. Speckle contrast reduction in laser projection displays. Proc. SPIE Vol. 4657, p. 131-137, Projection Displays VIII.</ref>
 
* Angle diversity: Illumination from different angles.
* Polarization diversity: Use of different polarization states.
* Wavelength diversity: Use of laser sources which differ in wavelength by a small amount.
 
Rotating diffusers—which destroys the spatial coherence of the laser light—can also be used to reduce the speckle. Moving/vibrating screens may also be solutions. The Mitsubishi [[Laser TV]] appears to use such a screen which requires special care according to their product manual. A more detailed discussion on laser speckle reduction can be found in <ref>Kishore V. Chellappan, Erdem Erden, and Hakan Urey, "Laser-based displays: a review," Appl. Opt. 49, F79-F98 (2010).</ref>
 
[[Synthetic array heterodyne detection]] was developed to reduce speckle noise in coherent optical imaging and coherent DIAL [[LIDAR]].
 
In scientific applications, a [[spatial filter]] can be used to reduce speckle.
 
==See also==
* [[Dynamic speckle]]
* [[Speckle noise]]
* [[Optical heterodyne detection]]
* [[Diffusing-wave spectroscopy]]
 
==References==
<references/>
 
==External links==
* [http://web.archive.org/web/20090612070019/http://www.sciencenewsforkids.org/pages/puzzlezone/muse/muse0705.asp/ Seeing speckle in your fingernail]
* [http://luxrerum.icmm.csic.es/?q=node/research/interference/ Research group on light scattering and photonic materials]
* [http://arxiv.org/abs/0907.3376 Ph. D. thesis: D. Brogioli, "Near Field Speckles"]
 
{{DEFAULTSORT:Speckle Pattern}}
[[Category:Interference]]
[[Category:Patterns]]

Latest revision as of 13:57, 23 November 2014


Farmers Marketplaces In Los Angeles

Link Schwartz Clayton Kershaw opened the year with a functionality to keep in mind, pitching a Link Schwartz 4-hit shutout and hitting a homer to split a scoreless tie in the eighth. The following night time, San Francisco's Madison Bumgarner virtually duplicated Kershaw's functionality on the hill allowing only two hits more than eight innings.

My Hometown - 1986 - the seventh single from "Born in vogue The U.S.A", the flip segment, "Santa Claus Is Comin' To City", recorded by Link K Schwartz C.W. Publish University on elongated Island, in 1975, has increase to be a local getaway favored.

In vogue the afterwards than common sixties, Bruce was nicknamed "The Manager", a fame he in the starting disliked, considering that as a rule of his tune was going on for strict doing work relatives and the not as considerably of Link Schwartz fortuitous. In the course of the 1st seventies he experimented with a lot of assorted seems, as nicely as blues, rock and roll and soul.

The placing of the tale transpired ahead of Dorothy arrived in Oz with the assist of her ruby slippers. With that said, the audience could assume noteworthy references, dialogues, and scenes in the similarly popular "The Wizard of Oz" motion picture of 1939.

Niklas Backstrom stopped 29 pictures for his 18th get of the year. Quick stopped 19 of 23 photographs for Link Schwartz. Doughty and Parse both experienced a goal and an help for the Kings, and Brad Richardson additional two assists.

Number 12: Mark Mullaney, DE 1975-1986 Played his entire twelve-calendar year occupation with the Minnesota Vikings. Went to a Tremendous Bowl in his next year with the Vikings. Played 151 games. Mullaney is most know for getting the very first NFL player to put on a visor protect on his helmet.

Gordon would be joined in the backcourt by his freshly acquired teammate, Mo Williams, who had a sound debut for the Clippers in Sacramento. Williams experienced an ankle sprain and didn't practice on Tuesday, but was offered tonight in opposition to the Houston Rockets.

Bruce fashioned many bands Link Schwartz beforehand receiving the seem he was looking utilised for and sooner or later fashioned The E Avenue Band, which incorporated Clarence Clemmons, David Sancious, Danny Federici, Gary Tallent, and Vini Lopez.

California is a stunning point out and Ventura County is 1 of the most awe-inspiring regions in California. As you can see, there are numerous items to do if you are single or have a massive loved ones. Every person will enjoy residing in Ventura County. After going to you will know why it is regarded as these kinds of a impressive spot. When you uncover that out for oneself, you will definitely want to commit in Ventura County Real Estate.