Topological Thermal Hall Conductance of Even Denominator Fractional States

The even denominator fractional quantum Hall (FQH) states $\nu=5/2$ and $\nu=7/2$, have been long predicted to host non-abelian quasiparticles (QPs). The presence of energy-carrying neutral modes cripples customary conductance measurements and thus motivates thermal transport measurements, which already proved to be sensitive to all energy-carrying modes. Each state has a different capacity to carry quanta of heat - as expressed by the so-called: 'central charge' - identifying the state's topological order. While the 'two-terminal' thermal conductance measurements identified the topological orders of abelian and non-abelian QH states, they are prone to partial thermal equilibration among counter-propagating modes. Here, we report a 'four-terminal' thermal Hall conductance measurement, which separately measures the heat carried by the downstream and upstream chiral modes. This measurement is insensitive to thermal equilibration among modes. We verify that the $\nu=5/2$ and $\nu=7/2$ states are non-abelian, supporting a single upstream Majorana mode, thus obeying the Particle-Hole Pfaffian topological order. While current numerical works predict a different central charge, this contribution should motivate further theoretical work.