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- HgCdTe as a playground for massless fermions hal link

Auteur(s): Teppe F.(Corresp.)

Conférence invité: GDR - I Graphene and Nanotubes & GDR Mesoscopic Quantum Physics (Aussois, FR, 2015-11-29)


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Résumé:

Bulk films and heterostructures based on HgCdTe compounds can be engineered to fabricate “gapped-at-will” structures. Therefore, 1D [1], 2D [2] and even 3D [3] massless particles can be observed in topological phase transitions driven by intrinsic (quantum well thickness, Cd content) and external (magnetic field, temperature or pressure) physical parameters. So far, the phases of 2D [1] and 3D [4] topological insulator have already been experimentally demonstrated in HgCdTe-based heterostructures. More recently, clear experimental evidence of the existence of 3D electronic states with conical-like spectrum was obtained in HgCdTe bulk films at specific Cd content [3]. These 3D massless particles, called Kane fermions, have unique symmetry properties, which are not equivalent to any well-known case of massless particles in the ultrarelativistic limit of the quantum electrodynamics. In this talk, I will report our recent results on topological phase transitions driven by external physical parameters in HgCdTe-based QWs, as well as the first experimental demonstration of the rest-mass collapse of Kane fermions induced by temperature in HgCdTe bulk films.