Summary
The development and application of solid-state lasers (SSRs) over the last decade, emphasizing their wide-ranging uses in fields such as metal processing, medical applications, and optical transmission systems. It outlines the fundamental components of SSRs and the importance of achieving a balance between gains and losses in the laser resonator for effective generation. The concept of Q-switching is introduced, highlighting its role in enhancing laser performance by modulating the Q-factor of the resonator. Active and passive Q-switching methods are compared, with a focus on the advantages of passive Q-switches for generating powerful sub-nanosecond pulses in compact laser systems. The challenges associated with finding suitable passive Q-switching materials, particularly for long-term use, are discussed, leading to the proposal of a novel approach using a composite structure of polymer matrix with Cr4+:YAG nanopowders. This initiative, undertaken by the ALTER-Q consortium comprising European academic institutions, research organizations, and SMEs, aims to address the current limitations and pave the way for cost-effective alternatives in Q-switched laser technology.
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| Web resources: | https://cordis.europa.eu/project/id/101182995 |
| Start date: | 01-10-2024 |
| End date: | 30-09-2028 |
| Total budget - Public funding: | - 584 200,00 Euro |
Cordis data
Original description
The development and application of solid-state lasers (SSRs) over the last decade, emphasizing their wide-ranging uses in fields such as metal processing, medical applications, and optical transmission systems. It outlines the fundamental components of SSRs and the importance of achieving a balance between gains and losses in the laser resonator for effective generation. The concept of Q-switching is introduced, highlighting its role in enhancing laser performance by modulating the Q-factor of the resonator. Active and passive Q-switching methods are compared, with a focus on the advantages of passive Q-switches for generating powerful sub-nanosecond pulses in compact laser systems. The challenges associated with finding suitable passive Q-switching materials, particularly for long-term use, are discussed, leading to the proposal of a novel approach using a composite structure of polymer matrix with Cr4+:YAG nanopowders. This initiative, undertaken by the ALTER-Q consortium comprising European academic institutions, research organizations, and SMEs, aims to address the current limitations and pave the way for cost-effective alternatives in Q-switched laser technology.Status
SIGNEDCall topic
HORIZON-MSCA-2023-SE-01-01Update Date
22-11-2024
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Organisations
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| University of AVEIRO (Coördinator)
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| AT CRYSTALS
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| GRAPHENE ENERGY SP ZOO
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| INSTYTUT FIZYKI POLSKIEJ AKADEMII NAUK
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| LVIV POLYTECHNIC NATIONAL UNIVERSITY
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| POLITECNICO DI BARI (POLIBA)
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| SCIENTIFIC RESEARCH COMPANY ELECTRON-CARAT BRANCH OF PRIVATE JOINT STOCK COMPANY CONCERN-ELECTRON
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| ZILINSKA UNIVERZITA V ZILINE (UNIZA)