Difference between revisions of "Kerr - June 8, 2016"

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(Created page with " Today we discussed quite a few important concepts in the overall experiment. Riad's Magnet will be running at 72 Volts and 400 Amps for the Molybdenum pucks an...")
 
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               Today we discussed quite a few important concepts in the overall experiment.
 
               Today we discussed quite a few important concepts in the overall experiment.
  
Riad's Magnet will be running at 72 Volts and 400 Amps for the Molybdenum pucks and then a little higher for the Steel pucks
+
Riad's Magnet will be running at 72 Volts and 400 Amps for the Molybdenum pucks and then a little higher for the Steel pucks corresponding to 2000 G in our area of interest
  
 
Our area of Interest, from the magnetic field graphs he gave us, shows a magnetic field around 1500 Gauss
 
Our area of Interest, from the magnetic field graphs he gave us, shows a magnetic field around 1500 Gauss
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We have decided maybe a few Alloys that saturate from 1000 G - 2000 G would suffice (I need to find these online ASAP)
 
We have decided maybe a few Alloys that saturate from 1000 G - 2000 G would suffice (I need to find these online ASAP)
  
        '''Other things I learned'''
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            '''Other things I learned'''
  
 
*For many Target materials the relation between magnetization (observable) and Polarization (Quantity of interest) is not well known.
 
*For many Target materials the relation between magnetization (observable) and Polarization (Quantity of interest) is not well known.

Revision as of 08:31, 10 June 2016

              Today we discussed quite a few important concepts in the overall experiment.

Riad's Magnet will be running at 72 Volts and 400 Amps for the Molybdenum pucks and then a little higher for the Steel pucks corresponding to 2000 G in our area of interest

Our area of Interest, from the magnetic field graphs he gave us, shows a magnetic field around 1500 Gauss

This is crucial as we look to find a rare earth Iron alloy that saturates ideally near 1500 Gauss

We have decided maybe a few Alloys that saturate from 1000 G - 2000 G would suffice (I need to find these online ASAP)

            Other things I learned
  • For many Target materials the relation between magnetization (observable) and Polarization (Quantity of interest) is not well known.
  • Joe talked about a way to multiply the rotation in the Kerr effect by a repeating
  • Temperature may affect Polarization
  • Iron is most characterized when it comes to polarization and magnetization (8.4% Polarization)
  • We are going to be using an Out-of-plane magnetization
  • Slater-Pauling Relation?


Also, I want to be thinking about what I want to show at the GTS meeting next week. Tuesday 2
45 pm