| Paper | Title | Page |
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TUXA02 |
High-energy laser wakefield electron acceleration and its feasibility as a synchrotron radiation injection source | |
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| The development of high-energy collider requires the development of new high-gradient particle acceleration technologies. In order to achieve this grand scientific goal, laboratories around the world are currently focused on the application and development of novel acceleration technologies at the energy level of several GeV. With the advancements in ultra-intense and ultra-short laser technology, laser plasma acceleration has the potential to further advance accelerator technology, owing to its ultra-high acceleration gradients, short pulse duration and high current density. In this report, we will mainly introduce the current research progress of our team in high-energy laser wakefield electron acceleration. We will discuss the common technical research conducted in combining laser wakefield electron acceleration with traditional accelerator technology. Additionally, we will discuss the challenging issues faced by laser wakefield electron acceleration technology as an injection source technology for synchrotron radiation facilities. These discussions aim to offer some considerations for the further development of compact injection sources and high-energy colliders. | ||
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