Difference between revisions of "Kerr - June 1, 2016"

From Ciswikidb
Jump to navigation Jump to search
 
Line 1: Line 1:
Here is an outline to get started...let's evolve as project proceeds...
+
Here is an outline to get started...let's evolve as project proceeds...[[media:160601_Kerr_Outline.docx]]
  
Part I – Become familiar with polarized light and optical measurements
+
=== Part I – Become familiar with polarized light and optical measurements ===
  
 
;Basic Setup
 
;Basic Setup
Line 11: Line 11:
 
* Compare the different configurations to Thorlabs optical polarimeter
 
* Compare the different configurations to Thorlabs optical polarimeter
  
Photodiode and Scope Setup
+
;Photodiode and Scope Setup
1. Find a photodiode and scope to see intensity signal in real time
+
* Find a photodiode and scope to see intensity signal in real time
2. Define polarization and analyzing planes of crossed polarizers
+
* Define polarization and analyzing planes of crossed polarizers
3. Convince yourself that intervening half-wave plate can leak light
+
* Convince yourself that intervening half-wave plate can leak light
4. Insert Hinds AOM and demonstrate it works as a fast waveplate
+
* Insert Hinds AOM and demonstrate it works as a fast wave plate
5. Use lock-in amplifier to extract the AOM amplitude using photodiode
+
* Use lock-in amplifier to extract the AOM amplitude using photodiode
6. Compare the configuration to the Thorlabs optical polarimeter
+
* Compare the configuration to the Thorlabs optical polarimeter
  
Part II – Test Kerr signal using a magnetized foil
+
=== Part II – Test Kerr signal using a magnetized foil ===
  
Basic Setup – Analyze linear polarization angle from iron foil
+
;Basic Setup – Analyze linear polarization angle from iron foil
1. Find iron foils, pucks and permanent magnets
+
* Find iron foils, pucks and permanent magnets
2. Reflect laser off un-magnetized iron foil between cross-polarizers
+
* Reflect laser off un-magnetized iron foil between cross-polarizers
3. Use (variable) waveplate to test sensitivity to linear polarization plane
+
* Use (variable) waveplate to test sensitivity to linear polarization plane
4. Test signal as permanent magnets are added (measure field) to foil
+
* Test signal as permanent magnets are added (measure field) to foil
5. Move magnets relative to foil, test sensitivity
+
* Move magnets relative to foil, test sensitivity
6. Learn how to demagnetize the foil
+
* Learn how to demagnetize the foil
  
Advanced Setup – Photodiode and Scope Setup
+
;Advanced Setup – Photodiode and Scope Setup
1. Try Thorlabs polarimeter or fast photodiode to measure signal  
+
* Try Thorlabs polarimeter or fast photodiode to measure signal  
2. Repeat basic setup using the Hinds modulator; vary the foil magnetization  
+
* Repeat basic setup using the Hinds modulator; vary the foil magnetization  
3. Evolve sophistication of setup to best resolve plane of polarization
+
* Evolve sophistication of setup to best resolve plane of polarization
  
Part III – Kerr measurements of magnetized puck
+
=== Part III – Kerr measurements of magnetized puck ===
  
Setup – Integrate your diagnostic at Magnet Measurement Facility (MMF)
+
;Setup – Integrate your diagnostic at Magnet Measurement Facility (MMF)
1. Become familiar with the new magnet coil geometry, field
+
* Become familiar with the new magnet coil geometry, field
2. Devise a means to add your foil and with geometry like that of photogun
+
* Devise a means to add your foil and with geometry like that of photogun
3. Move or re-build your Kerr diagnostic at the MMF
+
* Move or re-build your Kerr diagnostic at the MMF
  
Experiment
+
;Experiment
1. Measure plane of polarization vs. power supply current (magnetic field)
+
* Measure plane of polarization vs. power supply current (magnetic field)
2. With MMF help measure magnetic field at face of iron
+
* With MMF help measure magnetic field at face of iron

Latest revision as of 12:02, 1 June 2016

Here is an outline to get started...let's evolve as project proceeds...media:160601_Kerr_Outline.docx

Part I – Become familiar with polarized light and optical measurements

Basic Setup
  • Find low power (<20 mW) laser and parts needed to do this:
  • Send light to power meter to get familiar with power level and control
  • Add a polarizer to define plane of polarization
  • Add an analyzer to find maximum and minimum e.g. “Law of Malus”
  • Between cross polarizers vary angle of half- and quarter- wave plates
  • Compare the different configurations to Thorlabs optical polarimeter
Photodiode and Scope Setup
  • Find a photodiode and scope to see intensity signal in real time
  • Define polarization and analyzing planes of crossed polarizers
  • Convince yourself that intervening half-wave plate can leak light
  • Insert Hinds AOM and demonstrate it works as a fast wave plate
  • Use lock-in amplifier to extract the AOM amplitude using photodiode
  • Compare the configuration to the Thorlabs optical polarimeter

Part II – Test Kerr signal using a magnetized foil

Basic Setup – Analyze linear polarization angle from iron foil
  • Find iron foils, pucks and permanent magnets
  • Reflect laser off un-magnetized iron foil between cross-polarizers
  • Use (variable) waveplate to test sensitivity to linear polarization plane
  • Test signal as permanent magnets are added (measure field) to foil
  • Move magnets relative to foil, test sensitivity
  • Learn how to demagnetize the foil
Advanced Setup – Photodiode and Scope Setup
  • Try Thorlabs polarimeter or fast photodiode to measure signal
  • Repeat basic setup using the Hinds modulator; vary the foil magnetization
  • Evolve sophistication of setup to best resolve plane of polarization

Part III – Kerr measurements of magnetized puck

Setup – Integrate your diagnostic at Magnet Measurement Facility (MMF)
  • Become familiar with the new magnet coil geometry, field
  • Devise a means to add your foil and with geometry like that of photogun
  • Move or re-build your Kerr diagnostic at the MMF
Experiment
  • Measure plane of polarization vs. power supply current (magnetic field)
  • With MMF help measure magnetic field at face of iron