MOSCOW BAUMANN STATE TECHNICAL UNIVERSITY
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AIM OF THE WORK

EQUIPMENT

   Spectrometer

   Optical behch design

   CCD-detector

   Microprocessor board

   Optical resolution

   Stray Light and Second Order Effects

   Fibre optic cable

   Light passing through fibre

   Fibre design

   Optical fibre types

   Collimating lens

   Objects of research

   AVALight lamp

   Halogen and deuterium lamps

SPECTROMETER CONTROL PARAMETERS

   Integration time

   Average

   Saturation detection levels

   Smoothing

   Correct for dynamic dark

EXPERIMENT

   Experiment scheme

   Àcquaintance with control interfaces

   Order of carrying out the work

   Stage 1

   Stage 2

   Stage 3

   Practical part
 
Optical resolution
The optical resolution is defined as the minimum difference in wavelength that can be separated by the spectrometer.

For separation of two spectral lines it is necessary to image them at least 2 array-pixels apart.

Because the grating determines how far different wavelengths are separated (dispersed) at the detector array, it is an important variable for the resolution. For the higher lines/mm gratings the pixel dispersion varies along the wavelength range and gets better towards the longer wavelengths. The best resolution can always be found for the longest wavelengths.

The other important parameter is the width of the light beam entering the spectrometer. This is basically the installed fixed entrance slit in the spectrometer, or the fiber core diameter when no slit is installed..

Its image on the detector array for a given wavelength will cover a number of pixels.

For two spectral lines to be separated, it is now necessary that they be dispersed over at least this image size plus one pixel.

When large core fibers are used the resolution can be improved by a slit of smaller size than the fiber core. This effectively reduces the width of the entering light beam.

The influence of the chosen grating and the effective width of the light beam (fiber core or entrance slit) are shown in the table below.

    Optical resolution*
Channel Grating (lines/mm) /
Slit size (mkm)
Grating only Grating+Slit
Slave3 1200 / 10 0,12 - 0,08 0,18 - 0,12
Slave2 1800 / 10 0,08 - 0,05 0,11 - 0,07
Slave1 2400 / 25 0,06 - 0,03 0,14 - 0,08
Master 3600 / 25 0,03 - 0,02 0,08 - 0,04
* The resolution in this table is defined as F(ull) W(idth) H(alf) M(aximum), which is defined as the width in nm of the peak at 50% of the maximum intensity.