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en:praktikum:ism [2016/10/06 23:47] – [Evaluation] rhainichen:praktikum:ism [2017/09/07 15:39] (current) – [Protocol] rhainich
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 ====== D1 - Interstellar absorption spectroscopy ====== ====== D1 - Interstellar absorption spectroscopy ======
  
-==== Task ====+===== Task =====
  
-A UV spectrum of a nearby star is given, showing several interstellar absorption lines+A UV spectrum of Delta Orionis (a nearby staris given, showing several interstellar absorption lines
 of different ions and molecules. These lines arise from interstellar gas clouds between the emitting star  of different ions and molecules. These lines arise from interstellar gas clouds between the emitting star 
 and the earth. Using computer programs, the properties of these lines are examined and the column density and the earth. Using computer programs, the properties of these lines are examined and the column density
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 further physical properties are deduced.  further physical properties are deduced. 
  
-==== Evaluation: Metal abundances in the interstellar gas ====+===== Evaluation: Metal abundances in the interstellar gas =====
  
 +/*
   * Identify the lines in the spectrum using the appended line list    * Identify the lines in the spectrum using the appended line list 
   * Find the line center of some lines and use the shift between the laboratory (rest) wavelength and the observed line to calculate the radial velocity of the cloud (Doppler shift)   * Find the line center of some lines and use the shift between the laboratory (rest) wavelength and the observed line to calculate the radial velocity of the cloud (Doppler shift)
   * Measure the equivalent width of the absorption lines of following ions: FeII, SiII, ArI, OI and NI. Create a growth curve for these lines and estimate the (logarithmic) column density for the elements listed before, i.e. log N(FeII), log N(SiII), etc. What is the Doppler parameter (b value) of the growth curve?    * Measure the equivalent width of the absorption lines of following ions: FeII, SiII, ArI, OI and NI. Create a growth curve for these lines and estimate the (logarithmic) column density for the elements listed before, i.e. log N(FeII), log N(SiII), etc. What is the Doppler parameter (b value) of the growth curve? 
 +*/
  
 +Search for a UV spectrum of Delta Orionis in the [[https://archive.stsci.edu/iue/search.php|IUE database]] (use a radius of a few arc second). By clicking on the ''dataID'', a preview will open, offering the possibility to download the spectrum as an ASCII file. The data needs to be converted to final spectra (flux over wavelength) with the script ''iue-makelambdascale.plot'' that can be found in ''~/scripts/d1/''. The header of the downloaded file needs to be commented out (with * in //WRplot//) before it can be read by the script. Moreover, the corresponding file name needs to be stated in the script. The script can be run with
 +  wrplot filename.plot
 +or
 +  wrpdf filename.plot
 +The resolution of the IUE spectrograph in the high dispersion mode is $R = \frac{\Delta \lambda}{\lambda} = 10000$. Identify the lines by of the line list (''lines.txt''), which also can be found in the scripts directory. Determine the line center of several lines and calculate the shifts with respect to values given in the line list. Determine the radial velocity of the absorbing cloud by means of the Doppler formula. Measure the equivalent width of the absorption lines of the following ions:  FeII, SiII, OI, AlI, SI, and NI. Create a curve of growth and determine the (logarithmic) column density for the elements listed before, i.e. log N(FeII), log N(SiII), etc. What is the Doppler parameter (b value) of the curve of growth? 
  
-==== Evaluation ====+===== Evaluation =====
  
 Assume that the column density of neutral hydrogen in the cloud is log N(HI) = 19.92. Estimate the relative abundances of elements X in comparison to the sun, Assume that the column density of neutral hydrogen in the cloud is log N(HI) = 19.92. Estimate the relative abundances of elements X in comparison to the sun,
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 The evaluation shall be done using the ESO software package //Midas// which is installed at the [[en:praktikum:zugang |Laboratory course computer]] or can be [[en:software:howto_midas_install| installed]] at the own computer. The required data and scripts are being provided by the instructors.  The evaluation shall be done using the ESO software package //Midas// which is installed at the [[en:praktikum:zugang |Laboratory course computer]] or can be [[en:software:howto_midas_install| installed]] at the own computer. The required data and scripts are being provided by the instructors. 
  
-==== Protocol ====+===== Report =====
  
-First, describe the background of this experiment. Write down the wavelength shifts, the resulting velocity including the error margins (non-linear error propagation!)the b parameters of the growths curves and the column densities of the different elements. +First, describe the background of this experiment. Estimate the wavelength shifts, the resulting velocity including the error margins (non-linear error propagation!). Determine the b parameters of the curve of growths and the column densities of the different elements. Use the above formula to calculate the relative abundances in respect to solar values and their deviation from those values in percent.
-Use the above formula to calculate the relative abundances in respect to solar values and their percentage uncertainties.+
  
 [[en:praktikum:index|Overview: Laboratory Courses]] [[en:praktikum:index|Overview: Laboratory Courses]]
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