remove code from outline, add images

[thesis-spatio-angular-microscopy.git] / content.org

* Introduction
  motivate fluorescence microscopy, explain its drawbacks (usually
  only 5 min exposure without changing biology)
* Methods and Results
** The optical system
   draw thin lens model of the optical system as delivered by the
   company, give examples how it can be used to improve illumination
   for c. elegans samples
** The electronic system
   explain how devices are synchronized
*** Liquid crystal on Silicon Display
**** maybe describe how it works (but there isn't much information available)
*** Micro mirror array
**** I have more information but maybe I'm not allowed to disclose
*** Camera
** The optimization system
*** Illumination optimization via Raytracing    
*** Expected improvement with controlled light exposure (lack of Simulation will make that hard to write)
*** Expected improvement with angular illumination
*** Experimental results
* Summary
* Appendix
** Simulating the microscope
*** Raytracing through immersion objective
*** On locating nuclei
*** On tracking nuclei
*** Angular point spread function
*** Comparison of widefield and spatio-angular illumination
*** Optimization of illumination
** Camera calibration
   compare performance of different cameras (SNR agains light
   intensity), support our choice of camera
** On measuring light intensity in the focal plane
** On the choice of the objective
   explain our choice of the objective 
** Controlling the micro-mirror array
** Synchronizing electronics by microcontroller 
** Preparing C. elegans embryos for imaging