![[Logo] Matemática @ Instituto Superior Técnico](/img/DM_CMYK_clipped.svg "Matemática @ Instituto Superior Técnico")
07/05/2013, 15:00 — 16:00 — Sala V1.15, Pavilhão de Eng. Civil
Guillermo Cordourier-Maruri, University College London
Implementation of quantum logic gates by electron scattering in
graphene nanoribbons
To create a useful quantum information process we always have to
deal with the demons of decoherence and a highly demanding control.
An answer to reduce the control needed in the qubits interaction is
the use of scattering of one flying qubit with a static qubit. In a
solid state scenario, the experimental development of quantum
electron optics allows to manipulate the path of just one electron
in a ballistic regime. In this way, the flying qubit can be
implemented with a ballistic electron spin, and the static one with
a magnetic impurity or a quantum dot spin. In this talk we discuss
the very interesting advantages and the different disadvantages of
this proposal. Then we show how the extraordinary properties of
graphene, in particular the Klein tunnelling, could overcome this
problems and help to implement low-error two-qubit logic gates.
Joint seminar with CFIF. Please note exceptional day and room.
