Summary
As one of the most fascinating phenomena in physics, strong correlation exists across a wide range of scales from planet to electron. Researchers have been pursuing a thorough understanding of strong-correlation phenomena for decades. In addition to the equilibrium correlated states detected by electric methods, nonequilibrium correlated dynamics that reveals more fingerprints of many-body interaction at a transient timescale is also significant. The emergence of two-dimensional (2D) moiré superlattices provides an excellent platform to probe localized nonequilibrium correlation phenomena by ultrafast laser excitation and spectroscopic detection with high resolution in both space and time. The combination of large moiré lattices in space and femtosecond-scale resolution in time will offer us a powerful tool to unravel the signature of unconventional dynamics of strong-correlated states, which not only deepens our understanding of complex quantum systems but also holds promise for the development of advanced technologies with transformative applications in fields like quantum computing and energy transmission. This interdisciplinary training scheme aims to enhance Dr. Shang’s expertise in photonics, strengthening his skills and helping him establish a research career in Europe. The program covers component design and implementation, theoretical analysis and photonics experiments. To assist Shang in reaching professional maturity and increase his exposure to academic and industrial collaborations, he will receive training on intellectual property management, funding and proposal writing, commercialization, business and finance management, supervision, and teaching. Additionally, Shang will have the opportunity to establish cooperation with Prof. Abajo (ICFO, Spain) as part of an academic secondment. This will maximize his learning experience, expand his network in Europe, and maximize the impact of research and training on EU society and industry.
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| Web resources: | https://cordis.europa.eu/project/id/101155089 |
| Start date: | 01-08-2024 |
| End date: | 31-07-2026 |
| Total budget - Public funding: | - 215 534,00 Euro |
Cordis data
Original description
As one of the most fascinating phenomena in physics, strong correlation exists across a wide range of scales from planet to electron. Researchers have been pursuing a thorough understanding of strong-correlation phenomena for decades. In addition to the equilibrium correlated states detected by electric methods, nonequilibrium correlated dynamics that reveals more fingerprints of many-body interaction at a transient timescale is also significant. The emergence of two-dimensional (2D) moiré superlattices provides an excellent platform to probe localized nonequilibrium correlation phenomena by ultrafast laser excitation and spectroscopic detection with high resolution in both space and time. The combination of large moiré lattices in space and femtosecond-scale resolution in time will offer us a powerful tool to unravel the signature of unconventional dynamics of strong-correlated states, which not only deepens our understanding of complex quantum systems but also holds promise for the development of advanced technologies with transformative applications in fields like quantum computing and energy transmission. This interdisciplinary training scheme aims to enhance Dr. Shang’s expertise in photonics, strengthening his skills and helping him establish a research career in Europe. The program covers component design and implementation, theoretical analysis and photonics experiments. To assist Shang in reaching professional maturity and increase his exposure to academic and industrial collaborations, he will receive training on intellectual property management, funding and proposal writing, commercialization, business and finance management, supervision, and teaching. Additionally, Shang will have the opportunity to establish cooperation with Prof. Abajo (ICFO, Spain) as part of an academic secondment. This will maximize his learning experience, expand his network in Europe, and maximize the impact of research and training on EU society and industry.Status
SIGNEDCall topic
HORIZON-MSCA-2023-PF-01-01Update Date
22-11-2024
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