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photometry

 
American Heritage Dictionary:

pho·tom·e·try

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(fō-tŏm'ĭ-trē) pronunciation
n.
Measurement of the properties of light, especially luminous intensity.

photometric pho'to·met'ric ('tə-mĕt'rĭk) or pho'to·met'ri·cal (-rĭ-kəl) adj.
photometrically pho'to·met'ri·cal·ly adv.
photometrist pho·tom'e·trist n.

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Wiley Book of Astronomy:

photometry

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In optics: (1) the measurement of the intensity, distribution, color, absorption factor, and spectral distribution of visible light, and occasionally of near-ultraviolet and near-infrared light; (2) the science of making such measurements. In astronomy: the use of photometric instruments and techniques to make a precise measurement of the amount of electromagnetic energy that is received from a celestial object.
Britannica Concise Encyclopedia:

photometry

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Precision measurement of the brightness, colour, and spectrum of stars and other celestial objects to obtain data on their structure, temperature, and composition. About 130 BC Hipparchus used a system that divided the stars into six magnitudes, from brightest to faintest. Beginning in the 17th century, use of the telescope led to the discovery of many fainter stars, and the scale was extended. The use of photographic and, since the 1940s, photoelectric equipment has vastly extended the sensitivity and wavelength range of astronomical photometry. The main (UBVRI) classification system uses wave bands in the ultraviolet, blue, visual, red, and infrared ranges. More elaborate systems can distinguish giant and dwarf stars, detect metals in stars, and determine surface gravity.

For more information on photometry, visit Britannica.com.

McGraw-Hill Dictionary of Architecture & Construction:

photometry

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The measurement of quantities associated with light.

Oxford Companion to the Photograph:

photometry

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Photometry is the measurement of light. It is important in photographic lighting set-ups, as it links the output of a luminous source to the exposure received by the photographic material. The units of luminous intensity are the candela (cd) and lumen (lm), 1 candela being 1 lumen per steradian. Candelas are measured in a specified direction, whereas lumens are averaged over a specified solid angle. These units are linked to the watt for one specific wavelength, namely 555 nanometres (mid-green, the maximum sensitivity of the human eye), where 1 watt corresponds to 683 lumens.

A uniform source of 1 candela would emit 1 lumen per square metre (lm m-1). At 1 m distance this represents an illuminance of 1 lux (lx). Illuminance is directly proportional to intensity and inversely proportional to the square of the distance from the source (the Inverse Square Law). The luminance of a source is directly proportional to its power and inversely proportional to its area. The unit is the candela per square metre (cd m-2). This unit also applies to light reflected from a surface. Like the candela, it is measured from a specified direction.

Luminous energy applies to flash exposures. It is reckoned in lumen seconds (lm s), and is equal to the area under the time-intensity graph for the flash in question (Fig. 1).

Where colour temperature is inapplicable, spectral power distribution is shown as a graph of power against wavelength (Fig. 2)

Fig. 1
Fig. 1


Fig. 2
Fig. 2

.

— Graham Saxby

Bibliography

  • Coaton, J. R., and Marston, A. M. (eds.), Lamps and Lighting (4th edn. 1996)
Columbia Encyclopedia:

photometry

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photometry (fōtŏm'ətrē), branch of physics dealing with the measurement of the intensity of a source of light, such as an electric lamp, and with the intensity of light such a source may cast on a surface area.

Photometric Units of Measurement

The intensity of electric lights is commonly given as so many candlepower, i.e., so many times the intensity of a standard candle. Since an ordinary candle is not a sufficiently accurate standard, the unit of intensity has been defined in various ways. It was originally defined as the luminous intensity in a horizontal direction of a candle of specified size burning at a specified rate. Later the international candle was taken as a standard; not actually a candle, it is defined in terms of the luminous intensity of a specified array of carbon-filament lamps. In 1948 a new candle, about 1.9% smaller than the former unit, was adopted. It is defined as 1/60 of the intensity of one square centimeter of a black body radiator at the temperature at which platinum solidifies (2,046°K). This unit is sometimes called the new international candle; the official name given to it by the International Commission of Illumination (CIE) is candela.

Other quantities of importance in photometry include luminous flux, surface brightness (for a diffuse rather than point source), and surface illumination. Luminous flux is the radiation given off in the visible range of wavelengths by a radiating source. It is measured in lumens, one lumen being equal to the luminous flux per unit solid angle (steradian) emitted by a unit candle. Surface brightness is measured in lamberts, one lambert being equal to an average intensity of 1/π candle per square centimeter of a radiating surface. The intensity of illumination, also called illuminance, is a measure of the degree to which a surface is illuminated and is thus distinguished from the intensity of the light source. Illumination is given in footcandles, i.e., so many times the illumination given by a standard candle at 1 ft. Another unit of illumination is the lux, one lux being equal to one lumen incident per square meter of illuminated surface. One lux equals 0.0929 footcandle.

Photometric Instruments

Instruments used for the measurement of light intensity, called photometers, make possible a comparison between an unknown intensity and a standard or known intensity. They are based on the inverse-square law, which states that as a light source is moved away from a surface it illuminates, the illumination decreases in an amount inversely proportional to the square of the distance. Thus the illumination of a surface by a source of light 2 ft away is 1/4 of the illumination at 1 ft from the source. Conversely, for two light sources, one at 1 ft from a surface and the other at 2 ft, to give the same illumination to the surface, it would be necessary for the source at 2 ft to have an intensity 4 times that of the source at 1 ft.

A photometer measures relative rather than absolute intensity. The Bunsen photometer (named for R. W. Bunsen) determines the light intensity of a source by comparison with a known, or standard, intensity. The two light sources (one of known, one of unknown intensity) are placed on opposite sides of the surface (a disk of paper) to be illuminated. In the center of this surface is a grease spot that, when illuminated equally from both sides, will appear neither lighter nor darker than the paper but will become almost invisible. Using the inverse-square law, the intensity of the unknown light source can be easily determined when the relative distances at which the two sources produce equal illumination are known. The Rumford photometer (named for Count Rumford), or shadow photometer, compares intensities of light sources by the density of the shadows produced. In the Lummer-Brodhun photometer, an opaque screen is placed between the two sources, and a comparison is made possible by an ingenious arrangement of prisms.

Bibliography

See E. Budding and O. Demircan, Introduction to Astronomical Photometry (2007); E. F. Milone and C. Sterken, Astronomical Photometry: Past, Present, and Future (2011).

Oxford Dictionary of Biochemistry:

photometry

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the measurement of the intensity of light or other electromagnetic radiation; it includes spectrophotometry (see spectrophotometer).
photometric adj.; photometrically adv.

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Saunders Veterinary Dictionary:

photometry

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Measurement of the intensity of light.

Random House Word Menu:

categories related to 'photometry'

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Random House Word Menu by Stephen Glazier
For a list of words related to photometry, see:
  • Optics - photometry: quantitative measurement of visible radiation emitted from light sources
  • Branches, Laws, Theories, and Techniques - photometry: process in which intensity of light or radiation emitted by celestial source is measured by electrical voltage or pulse counter

Wikipedia on Answers.com:

Photometry (astronomy)

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 This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (January 2012)

Photometry is a technique of astronomy concerned with measuring the flux, or intensity of an astronomical object's electromagnetic radiation.[1] Usually, photometry refers to measurement over large wavelength bands of radiation; when not only the amount of radiation but also its spectral distribution are measured the term spectrophotometry is used.

Contents

Methods

The methods used to perform photometry depend on the wavelength regime under study. At its most basic, photometry is conducted by gathering radiation in a telescope, perhaps passing it through specialized optical filters, and then capturing and recording the light energy with a photosensitive instrument. The set of passbands (filters) is called a photometric system.

Historically, photometry in the near infrared through long-wavelength ultra-violet was done with a photoelectric photometer, an instrument that measured the light intensity of a single object by directing its light on to a photosensitive cell. They have largely been replaced with CCD cameras which can simultaneously image multiple objects, though photoelectric photometers are still used in special situations, such as where high time resolution is required.

CCD photometry

When using a CCD camera to conduct photometry there are a number of possible ways to extract a photometric measurement (e.g. the magnitude of a star) from the raw CCD image. The observed signal from an object will typically be smeared (convolved) over many pixels by the point spread function. This broadening is due to the optics in the telescope as well as to astronomical seeing (twinkling). When obtaining photometry for a point source (an object with an angular diameter that is much smaller than the resolution of the telescope) the goal is to add up all the light from the object and subtract the light due to the sky. The simplest technique, adding up the pixel counts within a circle centered on the object and subtracting of an average sky count, is known as aperture photometry. When doing photometry in a very crowded field, such as a globular cluster, where the profiles of stars overlap significantly, one must use de-convolution techniques, such as point spread function fitting, to determine the individual fluxes of the overlapping sources.

Calibrations

After determining the flux of an object in counts, one must calibrate the measurement in some way. Which calibrations are needed depend in part on what type of photometry is being done. One typically speaks of performing differential, relative or absolute photometry. Differential photometry is the measurement of changes in the brightness of an object over time; these measurements are compiled into a light curve of the object. Relative photometry is the measurement of the apparent brightnesses of multiple objects relative to each other. Absolute photometry is the measurement of the apparent brightness of an object on a standard photometric system, these measurements can be compared with other absolute photometric measurements obtained with different telescopes/instruments. In most cases differential photometry can be done with the highest precision, while absolute photometry is the most difficult to do with high precision. In general, accurate photometry is more difficult when the apparent brightness of the object is fainter.

To perform differential photometry one must correct measurements for temporal changes in the sensitivity of the instrument as well as changes in the atmospheric extinction through which the object is observed (when observing from the ground). This is typically done by simultaneously observing a number of comparison stars, which are assumed to be constant, together with the object(s) of interest.

To perform relative photometry one must correct measurements for spatial variations in the sensitivity of the instrument and the atmospheric extinction. This is often in addition to correcting for their temporal variations, particularly when the objects being compared are too far apart on the sky to be observed simultaneously.

To perform absolute photometry one must correct for differences between the effective passband through which an object is observed and the passband used to define the standard photometric system. This is often in addition to the all of the other corrections discussed above. Typically this correction is done by observing the object(s) of interest through multiple filters and also observing a number of photometric standard stars. If the standard stars cannot be observed simultaneously with the target(s), this correction must be done under photometric conditions, when the sky is cloudless and the extinction is a simple function of the airmass.

Applications

Photometric measurements can be combined with the inverse-square law to determine the luminosity of an object if its distance can be determined, or its distance if its luminosity is known. Other physical properties of an object, such as its temperature or chemical composition, may be determined via broad or narrow-band spectrophotometry. Typically photometric measurements of multiple objects obtained through two filters are plotted on a color-magnitude diagram, which for stars is the observed version of the Hertzsprung-Russell diagram. Photometry is also used to study the light variations of objects such as variable stars, minor planets, active galactic nuclei and supernovae, or to detect transiting extrasolar planets. Measurements of these variations can be used, for example, to determine the orbital period and the radii of the members of an eclipsing binary star system, the rotation period of a minor planet or a star, or the total energy output of a supernova.

See also

References

  1. ^ Sterken, Christiaan; Manfroid, J. (1992), Astronomical photometry: a guide, Astrophysics and space science library, 175, Springer, pp. 1–6, ISBN 0792316533 

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American Heritage Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved.  Read more
Wiley Book of Astronomy. Copyright © 2004 by Wiley-Blackwell. Wiley and the Wiley logo are registered trademarks of John Wiley & Sons, Inc. and/or its affiliates in the United States and other countries. Used here by license.  Read more
Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 1994-2012 Encyclopædia Britannica, Inc. All rights reserved.  Read more
McGraw-Hill Dictionary of Architecture & Construction. McGraw-Hill Dictionary of Architecture and Construction. Copyright © 2003 by McGraw-Hill Companies, Inc. All rights reserved.  Read more
Oxford Companion to the Photograph. The Oxford Companion to the Photograph. Copyright © 2005 by Oxford University Press. All rights reserved.  Read more
Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2012, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more
 Oxford Dictionary of Biochemistry. Oxford University Press. Oxford Dictionary of Biochemistry and Molecular Biology © 1997, 2000, 2006 All rights reserved.  Read more
Saunders Veterinary Dictionary. Saunders Comprehensive Veterinary Dictionary 3rd Edition. Copyright © 2007 by D.C. Blood, V.P. Studdert and C.C. Gay, Elsevier. All rights reserved.  Read more
Random House Word Menu. © 2010 Write Brothers Inc. Word Menu is a registered trademark of the Estate of Stephen Glazier. Write Brothers Inc. All rights reserved.  Read more
Wikipedia on Answers.com. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article Photometry (astronomy) Read more

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