Inter-relationship among magnetization, polarization and magnetic wave vector in multiferroic spinel CoCr$_{2}$O$_{4}$

It has been known that the spinel CoCr$_{2}$O$_{4}$ is a multiferroic with conical spiral magnetic order characterized by three physical parameters: magnetization (\textbf{M}), polarization (\textbf{P}) and magnetic modulation vector (\textbf{Q}). We have found that these observables have a close inter-relationship in the multiferroic state and their inter-relationship changes in a methodical manner upon temperature variation and through applied magnetic fields. In order to understand the origin of this inter-relationship, we have performed comprehensive characterization experiments on the multiferroic compound, including measurements of dielectric constant, polarization, specific heat, magnetic susceptibility, and resonant x-ray scattering as functions of temperature and applied magnetic field.