Bogoliubov quasi-particles in superconductors are integer-charged particles inapplicable for braiding quantum information

Oral-In-person  · Withdrawn

Abstract

We present a rigorous proof that under a number-conserving Hamiltonian, one-body quasi-particles generally possess quantized charge and inertial mass identical to the bare particles. It follows that, Bogoliubov zero modes in the vortex (or on the edge) of superconductors cannot be their own anti-particles capable of braiding quantum information. As such, the heavily pursued Majorana zero mode-based route for quantum computation requires a serious re-consideration. This study further reveals the conceptual challenge in preparing and manipulating braid-able quantum states via physical thermalization or slow external fields. These profound results should reignite the long-standing quest for a number-conserving U(1) symmetric theory of superconductivity.

Presenters

  • Zhiyu Fan

    • Shanghai JiaoTong university

Authors

  • Zhiyu Fan

    • Shanghai JiaoTong university
  • Wei Ku

    • Shanghai Jiao Tong Univ