Summary
Spin Orbitronics provides a challenging and innovative framework for training early-stage researchers (ESRs) with excellent prospects for a career in industry and academia. In this promising area, the SPEAR project proposes a multidisciplinary European network, composed of 7 universities, 3 research centres and 7 small and medium sized companies, which will provide state-of-the-art training for ESRs in the field of fundamental and applied Spin Orbitronics.
The overarching scientific and technological objective of our research programme is to study materials with strong spin-orbit coupling, novel phenomena in these materials, and to build devices based on these phenomena for the next generation of memories, such as magnetic random-access memory (MRAM), and beyond-CMOS technology, such as spin-orbit-based logic, machine learning or neuromorphic computing. SPEAR will train 15 ESRs through research in the physics of spin-orbit torques, spin-to-charge conversion, 2D magnetic materials, spin Hall nano-oscillators, voltage control of magnetic anisotropy, and skyrmions. The ESRs to be recruited will develop state-of-the-art technologies and materials, including device nanofabrication, high-resolution microscopies, and theoretical calculations. The results to be achieved by SPEAR are already identified to be of commercial interest for the emerging MRAM industry.
Interdisciplinary secondments will be organised, including for every researcher a secondment of 3 months to the industrial sector. SPEAR will organise 5 focus topic sessions on various sub-fields in Spin Orbitronics and open them to junior researchers outside the consortium. It will also organize 5 special training sessions on transferable skills, which is of primary importance for increasing the employability of the ESRs. SPEAR ultimate goal is to train a new generation of highly-skilled researchers able to address future memory technologies and nanoelectronics beyond CMOS.
The overarching scientific and technological objective of our research programme is to study materials with strong spin-orbit coupling, novel phenomena in these materials, and to build devices based on these phenomena for the next generation of memories, such as magnetic random-access memory (MRAM), and beyond-CMOS technology, such as spin-orbit-based logic, machine learning or neuromorphic computing. SPEAR will train 15 ESRs through research in the physics of spin-orbit torques, spin-to-charge conversion, 2D magnetic materials, spin Hall nano-oscillators, voltage control of magnetic anisotropy, and skyrmions. The ESRs to be recruited will develop state-of-the-art technologies and materials, including device nanofabrication, high-resolution microscopies, and theoretical calculations. The results to be achieved by SPEAR are already identified to be of commercial interest for the emerging MRAM industry.
Interdisciplinary secondments will be organised, including for every researcher a secondment of 3 months to the industrial sector. SPEAR will organise 5 focus topic sessions on various sub-fields in Spin Orbitronics and open them to junior researchers outside the consortium. It will also organize 5 special training sessions on transferable skills, which is of primary importance for increasing the employability of the ESRs. SPEAR ultimate goal is to train a new generation of highly-skilled researchers able to address future memory technologies and nanoelectronics beyond CMOS.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/955671 |
| Start date: | 01-03-2021 |
| End date: | 31-08-2025 |
| Total budget - Public funding: | 3 975 822,36 Euro - 3 975 822,00 Euro |
Cordis data
Original description
Spin Orbitronics provides a challenging and innovative framework for training early-stage researchers (ESRs) with excellent prospects for a career in industry and academia. In this promising area, the SPEAR project proposes a multidisciplinary European network, composed of 7 universities, 3 research centres and 7 small and medium sized companies, which will provide state-of-the-art training for ESRs in the field of fundamental and applied Spin Orbitronics.The overarching scientific and technological objective of our research programme is to study materials with strong spin-orbit coupling, novel phenomena in these materials, and to build devices based on these phenomena for the next generation of memories, such as magnetic random-access memory (MRAM), and beyond-CMOS technology, such as spin-orbit-based logic, machine learning or neuromorphic computing. SPEAR will train 15 ESRs through research in the physics of spin-orbit torques, spin-to-charge conversion, 2D magnetic materials, spin Hall nano-oscillators, voltage control of magnetic anisotropy, and skyrmions. The ESRs to be recruited will develop state-of-the-art technologies and materials, including device nanofabrication, high-resolution microscopies, and theoretical calculations. The results to be achieved by SPEAR are already identified to be of commercial interest for the emerging MRAM industry.
Interdisciplinary secondments will be organised, including for every researcher a secondment of 3 months to the industrial sector. SPEAR will organise 5 focus topic sessions on various sub-fields in Spin Orbitronics and open them to junior researchers outside the consortium. It will also organize 5 special training sessions on transferable skills, which is of primary importance for increasing the employability of the ESRs. SPEAR ultimate goal is to train a new generation of highly-skilled researchers able to address future memory technologies and nanoelectronics beyond CMOS.
Status
SIGNEDCall topic
MSCA-ITN-2020Update Date
28-04-2024
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Organisations
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| Asociacion - Centro de Investigacion Cooperativa en Nanociencias - CIC NANOGUNE (Coördinator)
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| ANTAIOS
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
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| INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM VZW
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| MARTIN-LUTHER-UNIVERSITAT HALLE-WITTENBERG
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| NANOSC AB
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| QZABRE AG
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| UNIVERSITAET HAMBURG