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Patrick Janot edited HigherEnergyUpgrades.tex
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The possibility of further increasing the centre-of-mass energy of the ILC by another factor of two to $\sqrt{s}=$ 1 TeV has also been considered. The other linear collider project, CLIC~\cite{cite:CLICDR}, could provide a higher-energy physics programme all the way to $\sqrt{s}=$ 3 TeV. It would require, however, considerably more electrical power, estimated at $\sim 600$~MW.
The ultimate energy-frontier option for TLEP is of a very different and more ambitious nature. It would consist of using the 80-to-100 km tunnel to house a very-high-energy large hadron collider, the VHE-LHC. If equipped with magnets of 15~T, pp collisions could be produced at a centre-of-mass energy of 80 to 100 TeV, giving access to the direct production of new particles weighing 10~TeV or more. For completeness, we also note that pp collisions with a centre-of-mass energy of 33 TeV could be obtained by re-using the LHC tunnel for a pp collider using
15~T 20~T magnets, the high-energy hadron collider, HE-LHC.
\subsubsection{The Htt coupling}