Strange Metal In Magic-Angle Graphene With Near Planckian Dissipation
Strange Metal In Magic-Angle Graphene With Near Planckian Dissipation. Our results establish magic angle bilayer graphene. We also extract a transport scattering rate, which satisfies a near planckian form that is universally related to the ratio of (k_{b}t/ℏ).
We also extract a transport scattering rate, which satisfies a near planckian form that is universally related to the ratio of (k_{b}t/ℏ). Our results establish magic angle bilayer graphene. We also extract a transport “scattering rate”, which satisfies a near planckian form that is universally related to the ratio of (k b t / ℏ).
We Also Extract A Transport Scattering Rate, Which Satisfies A Near Planckian Form That Is Universally Related To The Ratio Of (K_{B}T/ℏ).
Our results establish magic angle bilayer graphene. We also extract a transport scattering rate, which satisfies a near planckian form that is universally related to the ratio of (k_{b}t/ℏ). We also extract a transport “scattering rate”, which satisfies a near planckian form that is universally related to the ratio of (k b t / ℏ).
Often Denoted “Strange Metals,” Such As Cuprates, Iron Pnictides, Ruthenates, And Cobaltates, Where The Observations Are At Odds With Expectations In A Weakly Interacting Fermi Liquid.
We also extract a transport scattering rate, which satisfies a near planckian form that is universally related to the ratio of (k_{b}t/ℏ).
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