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== 「報告書......私は ==
{{ about|a quantitative expression related to the physical process of '''absorption'''|a discussion of the process of absorption itself|Absorption (electromagnetic radiation) }}
:''"Optical density" redirects here. "Optical density" can also refer to [[index of refraction]].''<ref>{{Cite book  | author = Zitzewitz, Paul W. | year = 1999 | title = Glencoe physics  | isbn = 0-02-825473-2 | publisher = Glencoe/McGraw-Hill | location = New York, N.Y. | page = 395}}</ref>


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In [[spectroscopy]], the '''absorbance''' (also called '''optical density'''<ref>{{GoldBookRef | title = optical density | file = O04306}}</ref><ref>[http://books.google.com/books?id=j7ol1TL5OZ8C&pg=PA79The Laser Guidebook, by Jeff Hecht, p79]</ref>) of a material is a [[logarithm|logarithmic]] ratio of the radiation falling upon a material, to the radiation transmitted through a material.<ref>Mehta, A. [http://pharmaxchange.info/press/2012/04/ultraviolet-visible-uv-vis-spectroscopy-%E2%80%93-derivation-of-beer-lambert-law/ UV-Visible Spectroscopy- Derivation of Beer-Lambert Law]</ref><ref>{{cite web
相关的主题文章:
|url=http://www.websters-online-dictionary.org/ab/absorptance.html|title=Dictionary&nbsp;— Definition of absorptance
<ul>
|publisher=Websters-online-dictionary.org |date=  
 
|accessdate=2011-11-21}}
  <li>[http://gtjt.gaotang.cn/plus/feedback.php?aid=45 http://gtjt.gaotang.cn/plus/feedback.php?aid=45]</li>
</refAbsorbance measurements are often carried out in analytical [[chemistry]].
 
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== 警察はまた、警察の問題である場合によ ==
In physics, the term ''spectral '''absorbance''''' is used interchangeably with ''spectral '''absorptance''''' or '''[[absorptivity]]'''. In this case it has a slightly different meaning: the fraction of radiation absorbed at specific wavelengths.


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==Detailed explanation==
相关的主题文章:
Absorbance is a quantitative measure expressed as a logarithmic ratio between the radiation falling upon a material and the radiation transmitted through a material.
<ul>
:<math> A_\lambda = -\log_{10} \left( \frac{I_1}{I_0} \right)</math>,
 
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== ピープルコーディネート ==
where <math>A_\lambda</math> is the absorbance at a certain wavelength of light (<math>\lambda</math>), <math>I_1</math> is the intensity of the radiation (light) that has passed through the material (transmitted radiation), and <math>I_0</math> is the intensity of the radiation before it passes through the material (incident radiation).


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Outside the field of analytical chemistry, e.g. when used in biology and the [[Tunable Diode Laser Absorption Spectroscopy|Tunable Diode Laser Absorption Spectroscopy (TDLAS)]] technique, the absorbance is often defined using the [[natural logarithm]] instead of the [[common logarithm]], i.e. as
相关的主题文章:
 
<ul>
:<math>A_\lambda = -\ln(I_1/I_0)\,</math>
 
 
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The term ''[[absorption (electromagnetic radiation)|absorption]]'' refers to the physical process of absorbing light, while ''absorbance'' refers to the mathematical quantity. Also, absorbance ''does not always measure absorption'': if a given sample is, for example, a [[Dispersion (chemistry)|dispersion]], part of the incident light will in fact be scattered by the dispersed particles, and not really absorbed. However, in such cases, it is recommended that the term "attenuance" (formerly called "extinction") be used, which accounts for losses due to scattering and luminescence.<ref>International Union of Pure and Applied Chemistry (IUPAC) Glossary of terms used in photochemistry. Recommendations 1988 (Braslavsky, S. E. & Houk, K. N., eds) Pure Appl. Chem. 60, 1055-1106 (1988). An updated version, y J. W. Verhoeven, has appeared in Pure Appl. Chem. 68, 2223-2286 (1996).</ref>
 
 
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See the [[Beer-Lambert law]] for a more complete discussion.
 
 
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Although absorbance is properly unitless, it is sometimes reported in "Absorbance Units" or AU.  However, many people, including scientific researchers, wrongly state the results from absorbance measurement experiments in terms of arbitrary units.<ref>{{cite web
 
|url=http://dx.doi.org/10.1021/jz4006916 |title=How to Make Your Next Paper Scientifically Effective&nbsp;— J. Phys. Chem. Lett. 2013, 4, 1578−1581
</ul>
}}
</ref>
 
== Logarithmic vs. directly proportional measurements ==
The amount of light transmitted through a material diminishes [[Exponential function|exponentially]] as it travels through the material. Since the absorbance of a sample is measured as a logarithm, it is directly proportional to the thickness of the sample and to the concentration of the absorbing material in the sample. Some other measures related to absorption, such as [[transmittance]], are measured as a simple ratio so they vary exponentially with thickness and concentration of the material.
 
{| class="wikitable sortable"
|-
! Absorbance
! Transmittance (<math>I_1/I_0</math>)
|- style="text-align:center;"
|| 0
|| 1
|- style="text-align:center;"
|| 0.1
|| 0.79
|- style="text-align:center;"
|| 0.25
|| 0.56
|- style="text-align:center;"
|| 0.5
|| 0.32
|- style="text-align:center;"
|| 0.75
|| 0.18
|- style="text-align:center;"
|| 0.9
|| 0.13
|- style="text-align:center;"
|| 1
|| 0.1
|- style="text-align:center;"
|| 2
|| 0.01
|- style="text-align:center;"
|| 3
|| 0.001
|}
 
== Instrument measurement range ==
Any real measuring instrument has a limited range over which it can accurately measure absorbance. An instrument must be calibrated and checked against known standards if the readings are to be trusted. Many instruments will become non-linear (fail to follow the Beer-Lambert law) starting at approximately 2 AU (~1% Transmission). It is also difficult to accurately measure very small absorbance values (below 10<sup>−4</sup>) with commercially available instruments for chemical analysis. In such cases, [[Laser absorption spectrometry|
laser-based absorption techniques]] can be used, since they have demonstrated detection limits that supersede those obtained by conventional non-laser-based instruments by many orders of magnitude (detections have been demonstrated all the way down to 5 10<sup>−13</sup>). The theoretical best accuracy for most commercially available non-laser-based instruments is in the range near 1 AU. The path length or concentration should then, when possible, be adjusted to achieve readings near this range.
 
== Shade number ==
Some filters, notably [[welding]] glass, are rated by shade number, which is 7/3 times the absorbance plus one:<ref>{{cite web|url=http://www.unc.edu/~rowlett/units/dictS.html |title=How Many? A Dictionary of Units of Measurement by Russ Rowlett |publisher=Unc.edu |date=2004-09-01 |accessdate=2010-09-20}}</ref>
 
:shade number <math>= \frac{7}{3}A + 1</math>
 
or
 
:shade number <math>= \frac{7}{3}(- \log_{10} T) + 1</math>
 
So, if the filter has 0.1% transmittance (0.001 transmittance, which is 3 absorbance units) the shade number would be 8.
 
==Similar terms==
Many similar terms are used to describe concepts relating to absorbance and some terms may have differing interpretation or usage in different disciplines.
 
===Absorptance===
'''Absorptance''' refers to a directly proportional ratio. Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Total absorptance refers to absorptance measured over all wavelengths. Spectral absorptance refers to absorptance measured at a specified wavelengths.<ref>{{GoldBookRef | title = absorbance | file = A00028}}</ref>
 
Absorptance is a simple ratio, whereas absorbance is a logarithmic ratio. This difference means that the two different measures are often used for different applications.  
[http://www-cvrl.ucsd.edu/index.htm Color and Vision Research Laboratories, Institute of Ophthalmology, UCL], explains:
 
<blockquote>
Absorbance spectra are typically used to define photopigment spectra because their shape, when normalized (i.e., plotted as a fraction of the maximum absorbance), is independent of pigment optical density (pigment concentration). In contrast, the absorptance spectra, like the spectral sensitivity of the human subject, broadens as the optical density increases.<ref>http://www-cvrl.ucsd.edu/database/text/intros/intropig.htm</ref>
</blockquote>
 
===Absorption factor===
Same as Absorptance.
 
===Absorptivity===
In physics, the term ''spectral absorbance'' is used interchangeably with [[absorptivity]], meaning the fraction of radiation absorbed at a given wavelength. In chemistry, ''absorptivity'' usually refers to ''Molar absorptivity'', which is the constant <math>\epsilon</math> used in the [[Beer-Lambert law]], <math>A=\epsilon c l</math>, where <math>A</math> is the [[absorbance]], <math>c</math> is the concentration of the solution, and <math>l</math> is the path length.<ref>{{cite web
|url=http://www.websters-online-dictionary.org/ab/absorptance.html|title=Dictionary&nbsp;— Definition of absorptance
|publisher=Websters-online-dictionary.org |date=
|accessdate=2011-11-21}}
</ref>
 
===Mnemonic===
A mnemonic to remember the difference between absorbance and absorptance is that absorbance has no '''''t''''', or not '''''t''''', meaning it measures all that is not transmitted.
 
== See also ==
*[[Optical depth]]
*[[Beer-Lambert law]]
*[[Transmittance]]
*[[Reflectivity]]
*[[Tunable Diode Laser Absorption Spectroscopy|Tunable Diode Laser Absorption Spectroscopy (TDLAS)]]
*[[Densitometry]]
*[[Neutral density filter]]
*[[Mathematical descriptions of opacity]]
 
== References ==
<references/>
 
[[Category:Spectroscopy]]
[[Category:Optical filters]]

Revision as of 02:42, 4 February 2014

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"Optical density" redirects here. "Optical density" can also refer to index of refraction.[1]

In spectroscopy, the absorbance (also called optical density[2][3]) of a material is a logarithmic ratio of the radiation falling upon a material, to the radiation transmitted through a material.[4][5] Absorbance measurements are often carried out in analytical chemistry.

In physics, the term spectral absorbance is used interchangeably with spectral absorptance or absorptivity. In this case it has a slightly different meaning: the fraction of radiation absorbed at specific wavelengths.

Detailed explanation

Absorbance is a quantitative measure expressed as a logarithmic ratio between the radiation falling upon a material and the radiation transmitted through a material.

Aλ=log10(I1I0),

where Aλ is the absorbance at a certain wavelength of light (λ), I1 is the intensity of the radiation (light) that has passed through the material (transmitted radiation), and I0 is the intensity of the radiation before it passes through the material (incident radiation).

Outside the field of analytical chemistry, e.g. when used in biology and the Tunable Diode Laser Absorption Spectroscopy (TDLAS) technique, the absorbance is often defined using the natural logarithm instead of the common logarithm, i.e. as

Aλ=ln(I1/I0)

The term absorption refers to the physical process of absorbing light, while absorbance refers to the mathematical quantity. Also, absorbance does not always measure absorption: if a given sample is, for example, a dispersion, part of the incident light will in fact be scattered by the dispersed particles, and not really absorbed. However, in such cases, it is recommended that the term "attenuance" (formerly called "extinction") be used, which accounts for losses due to scattering and luminescence.[6]

See the Beer-Lambert law for a more complete discussion.

Although absorbance is properly unitless, it is sometimes reported in "Absorbance Units" or AU. However, many people, including scientific researchers, wrongly state the results from absorbance measurement experiments in terms of arbitrary units.[7]

Logarithmic vs. directly proportional measurements

The amount of light transmitted through a material diminishes exponentially as it travels through the material. Since the absorbance of a sample is measured as a logarithm, it is directly proportional to the thickness of the sample and to the concentration of the absorbing material in the sample. Some other measures related to absorption, such as transmittance, are measured as a simple ratio so they vary exponentially with thickness and concentration of the material.

Absorbance Transmittance (I1/I0)
0 1
0.1 0.79
0.25 0.56
0.5 0.32
0.75 0.18
0.9 0.13
1 0.1
2 0.01
3 0.001

Instrument measurement range

Any real measuring instrument has a limited range over which it can accurately measure absorbance. An instrument must be calibrated and checked against known standards if the readings are to be trusted. Many instruments will become non-linear (fail to follow the Beer-Lambert law) starting at approximately 2 AU (~1% Transmission). It is also difficult to accurately measure very small absorbance values (below 10−4) with commercially available instruments for chemical analysis. In such cases, laser-based absorption techniques can be used, since they have demonstrated detection limits that supersede those obtained by conventional non-laser-based instruments by many orders of magnitude (detections have been demonstrated all the way down to 5 10−13). The theoretical best accuracy for most commercially available non-laser-based instruments is in the range near 1 AU. The path length or concentration should then, when possible, be adjusted to achieve readings near this range.

Shade number

Some filters, notably welding glass, are rated by shade number, which is 7/3 times the absorbance plus one:[8]

shade number =73A+1

or

shade number =73(log10T)+1

So, if the filter has 0.1% transmittance (0.001 transmittance, which is 3 absorbance units) the shade number would be 8.

Similar terms

Many similar terms are used to describe concepts relating to absorbance and some terms may have differing interpretation or usage in different disciplines.

Absorptance

Absorptance refers to a directly proportional ratio. Absorptance is the ratio of the radiation absorbed by a surface to that incident upon it. Total absorptance refers to absorptance measured over all wavelengths. Spectral absorptance refers to absorptance measured at a specified wavelengths.[9]

Absorptance is a simple ratio, whereas absorbance is a logarithmic ratio. This difference means that the two different measures are often used for different applications. Color and Vision Research Laboratories, Institute of Ophthalmology, UCL, explains:

Absorbance spectra are typically used to define photopigment spectra because their shape, when normalized (i.e., plotted as a fraction of the maximum absorbance), is independent of pigment optical density (pigment concentration). In contrast, the absorptance spectra, like the spectral sensitivity of the human subject, broadens as the optical density increases.[10]

Absorption factor

Same as Absorptance.

Absorptivity

In physics, the term spectral absorbance is used interchangeably with absorptivity, meaning the fraction of radiation absorbed at a given wavelength. In chemistry, absorptivity usually refers to Molar absorptivity, which is the constant ϵ used in the Beer-Lambert law, A=ϵcl, where A is the absorbance, c is the concentration of the solution, and l is the path length.[11]

Mnemonic

A mnemonic to remember the difference between absorbance and absorptance is that absorbance has no t, or not t, meaning it measures all that is not transmitted.

See also

References

  1. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  2. Template:GoldBookRef
  3. Laser Guidebook, by Jeff Hecht, p79
  4. Mehta, A. UV-Visible Spectroscopy- Derivation of Beer-Lambert Law
  5. Template:Cite web
  6. International Union of Pure and Applied Chemistry (IUPAC) Glossary of terms used in photochemistry. Recommendations 1988 (Braslavsky, S. E. & Houk, K. N., eds) Pure Appl. Chem. 60, 1055-1106 (1988). An updated version, y J. W. Verhoeven, has appeared in Pure Appl. Chem. 68, 2223-2286 (1996).
  7. Template:Cite web
  8. Template:Cite web
  9. Template:GoldBookRef
  10. http://www-cvrl.ucsd.edu/database/text/intros/intropig.htm
  11. Template:Cite web
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