Abstract
The present paper presents the design of a vacuum compatible automatic targets feeding system (VCATFS) that can be used to introduce targets inside the interaction chambers for accelerators, laser beams and others research plants. As a first application, the system is to be used within the Extreme Light Infrastructure - Nuclear Physics (ELI-NP) project, to load target frames in the interaction chamber without losing the vacuum. The target frames will be inserted and retracted into/from the interaction chamber individually with high accuracy of positioning. Up to three target frames can be used during one experiment. This number of targets is a consequence of several severe spatial constraints where the system will be installed, but for other situations it can be increased. Also, a new technique of moving the target frames is proposed, two horizontal translations in two parallel planes and two vertical translations also in two parallel planes. VCATFS is divided into two main sub-systems: mechanical (includes kinematics, high precision components and systems, vacuum chamber), and a dedicated command and control system (transducers - high accuracy absolute linear encoders, stepper motors and associated electric drives unit, interfaces and proprietary software). Additionally, a dedicated vacuum system was designed. This approach will further be developed as prototype level. This paper will focus on the design of mechanical sub-system, the remaining ones will be the subject of future documents that would be made publicly available in the future.
Highlights
Extreme Light Infrastructure - Nuclear Physics (ELI-NP), one of the most advanced facility in the world, focused on the study of photonuclear physics and its applications consist of two 10 PW ultra-short pulse lasers and one of the most brilliant tuneable gamma-ray beams
The strategy to meet this requirement was to design a vacuum compatible automatic target feeding system (VCATFS) that preserves the vacuum inside the interaction chamber, and that can work with a high number of target frames
Maximum three targets frame can be supplied between two successive load – lock openings
Summary
ELI-NP, one of the most advanced facility in the world, focused on the study of photonuclear physics and its applications consist of two 10 PW ultra-short pulse lasers and one of the most brilliant tuneable gamma-ray beams. The strategy to meet this requirement was to design a vacuum compatible automatic target feeding system (VCATFS) that preserves the vacuum inside the interaction chamber, and that can work with a high number of target frames. This last requirement is strongly limited by some spatial constraint of the place where VCATFS will be installed. Taking into account the specific requirements regarding the number of target frames and the specific local configuration the translations had to be on both the vertical and horizontal axes: one vertical translation and two horizontal translation (two parallel planes)
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