GISAXS @ D-line: Procedures

Line-up mode: Rock & Roll

• disable CCD macros  >  ccdoff
• reset all sample positions and chose a new filename > new
• provide filename for sample
• provide scan number (hit return for default)
• provide sample thickness (hit return, if unchanged)
• note : new moves the ion chamber into the beam automatically
  
• go into hutch and change sample
• direct beam line-up
• make sample parallel to beam > rock 
• if the angular scan shows the "shark tooth" profile, you can proceed
• if the angular file has a flat top, or does not go to zero on one side, redo rock
• for rough samples: do rock at least twice and then skip to ccd mode
• trouble shooting
  
• reflectivity line-up  (for smooth samples with good reflectivity)
  
• measure a calibration reflectivity curve > roll
• extrapolate the onset of samth scan to find the proper zero value [ZERO] using pencil & ruler on the print-out
• reset the zero of samth > mv samth [ZERO]; set samth 0
• optional : measure a proper reflectivity curve > xrfine
• xrfine automatically takes a 10 sec dark current measurement before each actual scan
  
• in order to change scan parameters, use > set_xrfine
  
• redo xrfine with the new settings
  
• new setting will be remembered until changed with set_xrfine again
  

Switch to CCD mode

• check current sample position using  wsam
• choose sample position (samth, samx, samaz)
• a samth value of 0.25 deg at 10 keV x-ray energy usually is a good starting point
• samx=0 is the default line-up point; make sure to take images at 2 other samx values at least
  
• enable ccd macros  >  ccdon
• moves ccd into the scattering position
• enables ccd macros
  
• open garage door
• take a test image for 0.1 sec  > corr 1 0.1
• finetune beamstop position , if needed
  
• step of +/- 0.1 mm in bsx  >  mvr bsx 0.1
  
• whenever you move the beam stop: take a test image after each step > corr 1 0.1
• set the new bsx position to zero > set bsx 0
  
• collect images (suggestions) 
• increase the exposure time - please no more than a factor of 10 per step
• check that dark image exists > ls dark
• if not, collect a dark image first > dark [new exposure time]
• it is sufficient to update dark images once a day
  
• check image in fit2d : maximum linear range of CCD is 15,000 units, the CCD saturates above 16,000 units
• recommended z-scaling in fit2d : logarithmic with user min/max of 15 and 15,000
  
• choose a variety of samth values, to optimize contrast 
• choose a couple of samx values, to check homogeneity of the sample
• within +/- 2 mm all remains well-aligned
• if you need a larger samx range (>5mm) use the level macro in connection with samtilt
• for anisotropic samples:
• coarse check: turn sample 90 deg on holder and redo line-up, before collecting images
• note : samth should be corrected so that the reflected beam or the horizon or the Yoneda band appear at the same position in the image
• it is useful to make a little calibration of reflected beam position shift (in pixels) vs. samth offset
• fine scan: choose a variety of samaz values (+/-180 deg)
• the ex-situ goniometer with the crossed arcs works best for this, in conjunction with a laser beam line-up
• laser line-up: adjust arcs such that the reflected laser beam ends up in the same spot independent of samaz
• using azimuth angle pairs with a 180deg difference in the azimuth of a specific arc is most efficient.
• please be careful when you spin samaz manually to disengage the worm gear properly
  
• when you re-engage samaz please check with your hand first that the worm gear is properly aligned
• tighten the set screw only after motor is properly engaged - this may require moving samaz +/-1deg
  
• a line-up laser can be supplied
• if any of this procedure does not make sense to you, please ask for help / training