ProfChuck
Considering that birefringence results from a difference in effective propagation velocity of the electromagnetic field through an anisotropic refractive media, would it be practical to design a polarization diversity interferometer?
In astronomical observations radiation from distant objects frequently passes through clouds of charged particles that are immersed in a magnetic field. It would seem that a device that could measure the correlation function of the e and o waves as a function of time delay of the earlier wave could reveal much information about the media through which the radiation has passed. This in conjunction with time dispersion measurements could provide a powerful measurement tool. In particular, I am interested to know if any such measurements could be made of regions thought to be rich in dark matter.
In astronomical observations radiation from distant objects frequently passes through clouds of charged particles that are immersed in a magnetic field. It would seem that a device that could measure the correlation function of the e and o waves as a function of time delay of the earlier wave could reveal much information about the media through which the radiation has passed. This in conjunction with time dispersion measurements could provide a powerful measurement tool. In particular, I am interested to know if any such measurements could be made of regions thought to be rich in dark matter.