File:IEC60825 MPE J s.png

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Description
English: The graph above shows the maximum permissible exposure (MPE) to light from lasers, as joules for a given exposure time. This is most suitable for use with pulsed lasers; for continuous-wave lasers, see File:IEC60825 MPE W s.png. See also File:IEC60825 MPE J nm.png for detailed wavelength dependence. Plots are based on Table A.1 "Maximum permissible exposure limit for C6 equals 1 at the cornea" in IEC 60825-1, Edition 2.0 2007-03.

The vertical axis is the total energy which a person may be exposed to, per square cm. This is not the same as the power which a person can be exposed to. To determine the power a person can be exposed to, the energy must be divided by the time. In other words, if a lower powered laser is used, a person can be exposed for a longer period of time, before accumulating the same energy level.

As an example, a 5 mW laser puts out 5 mJ (5e-3 Joules) of energy per second. If the spread of the laser beam is 1 square cm, this point can be found by looking at the right column (labeled 1 second), and going up to the point 0.005 J/sq cm. This is therefore the maximum exposure for 1 second of light at 266-355 nm. On the other hand, if the laser beam width was only half that diameter, the energy per square centimeter would be 4 times as great, or 20 mJ (0.020 J/sq cm) in 1 second. To find the maximum exposure to this power level, the following procedure can be used:

  1. Begin at the point of exposure for 1 second (0.02 J/sq cm for our example).
  2. Move 1 line to the left (0.01 seconds), and 2 lines down (0.0002 J/sq cm, or 2 e-4). This is exposure to the same power level, but for 1/100th of the time, and therefore 1/100th of the energy.
  3. . Draw a line through these 2 points.

This line indicates the maximum time a person can be exposed to that power level of laser, at that width. This line will intersect the green line (400 to 700 nm) at approximately 1e-4 seconds. It will intersect the 800 nm line at about 0.008 seconds, and the 1064 nm line at about 0.1 seconds.

It is important to remember that to use this graph, the power of the laser, the beam width (beam area) of the laser, and the wavelength of the laser must be known. Visible lasers all fall into the 400-700 nm range, which has the lowest level of acceptable MPE. In other words, we can be most easily injured by light at these levels.

Summary

Created by Han-Kwang based on IEC 60825 formulas. Energy versus exposure time.
Date 9 August 2007 (original upload date)
Source Transferred from en.wikipedia to Commons by Hankwang using CommonsHelper.
Author The original uploader was Hankwang at English Wikipedia.

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The original description page was here. All following user names refer to en.wikipedia.
  • 2007-08-09 16:10 Hankwang 1000×700× (18188 bytes) Created by ~~~ based on IEC 60825 formulas. Energy versus exposure time.

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current14:18, 31 December 2011Thumbnail for version as of 14:18, 31 December 20111,000 × 700 (18 KB)Hankwang{{Information |Description={{en|This graph MAY not be correct. Using the example of 800 nm at 1e-6 J/cm2, the mean permissible exposure time is shown to be approximately 0.1 microseconds (1e-7 s). However, if the laser energy density is increased by two

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