FCC-ee accelerator parameters, performance and limitations

FCC-ee accelerator parameters, performance and limitations. Koratzinos, M. arXiv:1411.2819 [physics], November, 2014. arXiv: 1411.2819

Paper abstract bibtex

CERN has recently launched the Future Circular Collider (FCC) study to deal with all aspects of an ambitious post-LHC possible programme. The emphasis of the study is on a 100 TeV proton collider to be housed in a 80-100 km new ring in the Geneva region. An electron machine will also be considered as a possible intermediate first step (FCC-ee). The study benefits from earlier work done in the context of TLEP and has already published a parameter table, to serve as the basis for the work to be done. The study aims to publish a conceptual design report at around 2018. The recent discovery of a light Higgs boson has opened up considerable interest in circular e+e- Higgs factories around the world. FCC-ee is capable of very high luminosities in a wide centre-of-mass (ECM) spectrum from 90 to 350 GeV. This allows the very precise study of the Z, W and H bosons as well as the top quark, allowing for meaningful precision tests of the closure of the Standard Model.

@article{koratzinos_fcc-ee_2014,
	title = {{FCC}-ee accelerator parameters, performance and limitations},
	url = {http://arxiv.org/abs/1411.2819},
	abstract = {CERN has recently launched the Future Circular Collider (FCC) study to deal with all aspects of an ambitious post-LHC possible programme. The emphasis of the study is on a 100 TeV proton collider to be housed in a 80-100 km new ring in the Geneva region. An electron machine will also be considered as a possible intermediate first step (FCC-ee). The study benefits from earlier work done in the context of TLEP and has already published a parameter table, to serve as the basis for the work to be done. The study aims to publish a conceptual design report at around 2018. The recent discovery of a light Higgs boson has opened up considerable interest in circular e+e- Higgs factories around the world. FCC-ee is capable of very high luminosities in a wide centre-of-mass (ECM) spectrum from 90 to 350 GeV. This allows the very precise study of the Z, W and H bosons as well as the top quark, allowing for meaningful precision tests of the closure of the Standard Model.},
	urldate = {2017-11-16TZ},
	journal = {arXiv:1411.2819 [physics]},
	author = {Koratzinos, M.},
	month = nov,
	year = {2014},
	note = {arXiv: 1411.2819},
	keywords = {Physics - Accelerator Physics}
}

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