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Quantum Imaging of Topologically Unpaired Spin-Polarized Dirac Fermions

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arxiv 0909.0921 v2 pith:PVXQL5Q3 submitted 2009-09-04 cond-mat.mes-hall cond-mat.str-el

Quantum Imaging of Topologically Unpaired Spin-Polarized Dirac Fermions

classification cond-mat.mes-hall cond-mat.str-el
keywords diracquantumspintopologicalelectronsfermionsinterferenceparticles
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The motion of a relativistic particle is linked to its spin by the Dirac equation. Remarkably, electrons in two-dimensional materials can mimic such Dirac particles but must always appear in pairs of opposite spin chirality. Using topological ideas of chiral boundary electrons wrapping a three-dimensional crystal with tuned spin-orbit coupling, we show that elusive unpaired Dirac fermions exist on the surface of a topological insulator parent matrix, pure antimony. Using scanning tunneling microscopy and angle-resolved photoemission spectroscopy we image coherent quantum interference between these particles, map their helical spin texture, and ultimately observe a transition to a single Dirac fermion distinguished by backscattering suppression via Berry phase interference. The robust dynamics of these unique spin-polarized carriers envisage future applications in spintronics and topological quantum computation.

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