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Opendata, web and dolomites

NOTICE SIGNED

Novel Oxides and Topological Interfaces for quantum Computing Electronics

Total Cost €

EC-Contrib. €

Partnership

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NOTICE project word cloud

Explore the words cloud of the NOTICE project. It provides you a very rough idea of what is the project "NOTICE" about.

bismuth decoherence reducing synthetize logical superconductor perovskites beam computers desired majorana hold junctions computing photoemission epitaxy resistant superconductors physical insulator quantum platform gap orbit notice efficient correction noises perfect presenting semiconductors rate fault architectures shift ba chiral generate topology favorize manufacturing angle spectroscopy topological generation error spin babi techniques paradigm bi effect fabricate fluctuations drastically crystalline coupling bio3 device scalable suffering molecular today qubit tolerant perovskite immune simulations substrate characterization oxides stable pave qubits interface fermions silicon radically heterointerface ab fabricated resolved breakthrough initio scalability algorithms materials pristine dots monolithically reliability insulating

Project "NOTICE" data sheet

The following table provides information about the project.

Coordinator	INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM Organization address address: KAPELDREEF 75 city: LEUVEN postcode: 3001 website: www.imec.be contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.
Coordinator Country	Belgium [BE]
Total cost	2˙332˙691 €
EC max contribution	2˙332˙691 € (100%)
Programme	1. H2020-EU.1.1. (EXCELLENT SCIENCE - European Research Council (ERC))
Code Call	ERC-2019-COG
Funding Scheme	ERC-COG
Starting year	2020
Duration (year-month-day)	from 2020-09-01 to 2025-08-31

Partnership

Take a look of project's partnership.

#	participants	country	role	EC contrib. [€]
1	INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM Organization address address: KAPELDREEF 75 city: LEUVEN postcode: 3001 website: www.imec.be contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.	BE (LEUVEN)	coordinator	2˙332˙691.00

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Project objective

Today’s quantum computers are suffering from a very high error rate due to decoherence (i.e. loss of quantum information) in their qubits fabricated with superconductors junctions or semiconductors quantum dots. The goal of this proposal is to research radically new materials and architectures to build a “fault-tolerant” qubit device on Silicon substrate (i.e. scalable), that will be immune to decoherence problems. In NOTICE, we will design and synthetize novel crystalline perovskite materials, monolithically integrated on a Silicon substrate, with topological insulating properties to enable the generation of Majorana fermions at the heterointerface with a superconductor. The generated Majorana fermions will hold the quantum information in such “Majorana qubit” which will be resistant to noises and fluctuations due to the topology effect if stable and robust materials presenting the desired properties can be obtained. Bismuth-based perovskites were down-selected as topological insulator (BaBi(O,F)3) and superconductor ((Ba,K)BiO3) oxides due to the very strong Spin Orbit Coupling present in Bi which will favorize the efficient generation of Majorana fermions at the perfect (pristine) BaBi(O,F)3/(Ba,K)BiO3 heterointerface. With Molecular Beam Epitaxy growth approach together with advanced characterization techniques such as Angle-Resolved PhotoEmission Spectroscopy measurements and ab-initio simulations on the topological insulating properties of the perovskites, we aim to generate a stable topological interface leading to the efficient generation of Majorana fermions. This breakthrough will enable us to fabricate chiral Majorana devices on a Silicon technology platform, providing both reliability and manufacturing scalability. NOTICE results will pave the way to “fault-tolerant” qubit, bringing a paradigm shift in quantum computing by reducing drastically the gap between logical and physical qubits and the need for quantum error correction algorithms.

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