Faculty of Physics, Hanoi University of Science

French (Fr)

Topological quantum computing with hybrid semiconductor/superconductor nanowires

Envoyer Imprimer PDF
Note des utilisateurs: / 0
MauvaisTrès bien 
There are no translations available.

Bộ môn Tin Vật lý thuộc Khoa Vật lý, trường Đại học Khoa học Tự nhiên Hà Nội trân trọng kính mời quý vị đến dự seminar khoa học tháng 2/2018 do Khoa Vật lý tài trợ
Seminar tháng 2/2018 sẽ được tổ chức theo lịch như sau:
Ngày: 06/02/2018 (Thứ 3)
Giờ: từ 2 giờ 00 chiều đến 3 giờ 00 chiều
Địa điểm: Phòng 408F, nhà T1, 334 Nguyễn Trãi

Speaker: Dr. Nguyen Quoc Hung, Nano and Energy Center, VNU University of Science and Niels Bohr Institute, University of Copenhagen

Title: Topological quantum computing with hybrid semiconductor/superconductor nanowires

Abstract: Performance of quantum devices based on superconducting materials suffer from short decoherence time of it superposition states. Despite monumental effort, short life time of a qubit is a major roadblock to a practical quantum computer. The recent success that combines a semiconductor with a thin layer of superconductor of high quality has lead to new possibilities. Under axial magnetic field, Cooper pairings combined with spin orbit interactions lead to symmetrical excitations along one dimension. Known as Majorana, these quasiparticles extend nonlocally, and thus remain robust against environment fluctuations. It is an attractive candidate to construct a qubit that could have a long decoherence time. Two pairs of Majorana are created in a double dot configuration, which allows a continuous control on their hybridization. The Majorana parity state can be projected to the charge state of each dot, which is readout in the time domain by charge sensing. In the topological regime, we observed Rabi oscillation of a charge qubit, a milestone toward a topological protected qubit.


Trân trọng,
Bộ môn Tin Vật lý.
Download this file (2018_02_Poster_seminar.pdf)poster[poster]447 Kb

Related Articles