Light-mass hole-spins in a Ge quantum well as qubits

ORAL

Abstract

Electrons bound to quantum dots provide well defined (spin 1/2) physical qubits. Under strong spin-orbit coupling spin qubits are expected to suffer rapid dephasing from charge noise; however, recent experiments have effectively employed spin-orbit coupling in coherent quantum gates. Here we show that hole spins in a Si1-xGex/Ge/ Si1-xGex quantum well possess highly desirable properties as qubits, including a high natural abundance of nuclear spin-0 isotopes, a large (~100 meV) intrinsic splitting between the light and heavy hole bands, and a very light (~0.05m0) effective mass. We employ ab initio methods to determine the band structure of strained Ge quantum wells as a function of x, and we discuss the advantages and challenges of using Ge hole spins as qubits.

Presenters

  • Rodrigo Capaz

    Univ Fed Rio de Janeiro

Authors

  • Rodrigo Capaz

    Univ Fed Rio de Janeiro

  • Luis Terrazos

    Univ Fed Campina Grande

  • Andre Saraiva

    Instituto de Fisica, Universidade Federal do Rio de Janeiro, Univ Fed Rio de Janeiro

  • Mark Friesen

    Physics, University of Wisconsin-Madison, Univ of Wisconsin, Madison, University of Wisconsin-Madison, Department of Physics, Univ of Wisconsin, Madison, Department of Physics, University of Wisconsin - Madison, Department of Physics, University of Wisconsin-Madison, Physics, Univ of Wisconsin, Madison

  • Susan Coppersmith

    Physics, University of Wisconsin-Madison, Univ of Wisconsin, Madison, University of Wisconsin-Madison, Physics, University of Wisconsin: Madison, Department of Physics, Univ of Wisconsin, Madison, Department of Physics, University of Wisconsin - Madison, Department of Physics, University of Wisconsin-Madison, Physics, Univ of Wisconsin, Madison

  • Belita Koiller

    Instituto de Fisica, Universidade Federal do Rio de Janeiro, Univ Fed Rio de Janeiro