When calculating particle holograms, many researchers have studied the motion of particles in a homogeneous medium when the refractive index of the medium is a fixed value, for example 1 in air.
But it seems to be a difficult thing to do when it comes to calculating the particles from phase A through phase B, because it involves the dynamic refractive index with the motion of the particles, so I'd like to ask if any researcher has encountered this kind of problem?
I want to use holopy to determine the position h1 of the particle from the contact line between the two phases as it crosses the medium.
If I can't use holopy to calculate this, can I only use the static calibration method (refractive index corresponding to the particles at different positions h from the contact line of the two phases) to roughly fit the dynamic positional changes of the particles during the trans-media process?
When calculating particle holograms, many researchers have studied the motion of particles in a homogeneous medium when the refractive index of the medium is a fixed value, for example 1 in air.
But it seems to be a difficult thing to do when it comes to calculating the particles from phase A through phase B, because it involves the dynamic refractive index with the motion of the particles, so I'd like to ask if any researcher has encountered this kind of problem?
I want to use holopy to determine the position h1 of the particle from the contact line between the two phases as it crosses the medium.
If I can't use holopy to calculate this, can I only use the static calibration method (refractive index corresponding to the particles at different positions h from the contact line of the two phases) to roughly fit the dynamic positional changes of the particles during the trans-media process?