Topological superfluid3He-B in magnetic field and ising variable

We present new experimental and theoretical studies of magnetic relaxation in 'He-B. Methods are developed for the measurement of relaxation using either CW or Pulsed NMR. Both methods make use of the properties of the Homogeneously Precessing Domain. Terms corresponding to intrinsic (Leggett-Takagi

Theory of the sound absorption of superfluid aIIe-B under arbitrary magnetic field is presented in the collisionless regime. It is shown that the imaginary J = 1, Jz = 0 mode together with pair breaking excitations yield an interesting absorption spectrum depending upon magnetic field. We suppose t

We are measuring the boundary between the superfluid A and B phases of 3He as a function of magnetic field and pressure. The results yield new information on Landau-Ginzburg parameters, microscopic quasiparticle scattering amplitudes, superfluid specific heats, and potentially other normal liquid pr

We have studied the viscosity of 3 He in the Al phase at various pressures with a vibrating wire viscometer in a magnetic field of 9.3 T. The data could be fitted surprisingly well using a simple model. The value of the minimum of the reduced viscosity is independent of pressure.