Accelerator

Accelerator Overview

Accelerator Overview

CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (simplified) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (simplified) (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (simplified) (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 3 TeV (simplified) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (simplified) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (simplified) (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (simplified) (with logo) (Image: CERN)
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CLIC accelerator schematic diagrams
CLIC accelerator complex at 380 GeV (simplified) (Image: CERN)
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CLIC project timeline
The CLIC project timeline. Current plan is to start at sqrt(s)=380 GeV for Higgs and top quark precision physics and upgrade up to 3 TeV. This timeline represent a purely technical schedule and assumes support at the European Strategy for Particle Physics (ESPP) in 2020 and available funding. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC accelerator footprint
The footprint of a future CLIC accelerator with energy stages of 380 GeV, 1.5 TeV and 3 TeV. The accelerator could be built close to Geneva in the border region between Switzerland and France. (Image: CERN)
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CLIC Accelerator Overview
scheme klystron (Image: CERN)
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CLIC Accelerator Overview
new scheme klystron (Image: CERN)
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CLIC Accelerator Overview
Sensors configuration for 380 GeV DB option (Image: CERN)
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CLIC Accelerator Overview
Sensors configuration for 380 GeV Klystrons option (Image: CERN)
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