Jens Steckert scite author profile

ALICE is the heavy-ion experiment at the CERN Large Hadron Collider. The experiment continuously took data during the first physics campaign of the machine from fall 2009 until early 2013, using proton and lead-ion beams. In this paper we describe the running environment and the data handling procedures, and discuss the performance of the ALICE detectors and analysis methods for various physics observables.

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Testing beam-induced quench levels of LHC superconducting magnets

Auchmann¹,

Baer²,

Bednarek³

et al. 2015

Phys. Rev. ST Accel. Beams

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In the years 2009-2013 the Large Hadron Collider (LHC) has been operated with the top beam energies of 3.5 TeV and 4 TeV per proton (from 2012) instead of the nominal 7 TeV. The currents in the superconducting magnets were reduced accordingly. To date only seventeen beam-induced quenches have occurred; eight of them during specially designed quench tests, the others during injection. There has not been a single beaminduced quench during normal collider operation with stored beam. The conditions, however, are expected to become much more challenging after the long LHC shutdown. The magnets will be operating at near nominal currents, and in the presence of high energy and high intensity beams with a stored energy of up to 362 MJ per beam. In this paper we summarize our efforts to understand the quench levels of LHC superconducting magnets. We describe beam-loss events and dedicated experiments with beam, as well as the simulation methods used to reproduce the observable signals. The simulated energy deposition in the coils is compared to the quench levels predicted by electro-thermal models, thus allowing to validate and improve the models which are used to set beam-dump thresholds on beam-loss monitors for Run 2.

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CERN Yellow Reports: Monographs, Vol. 10 (2020): High-Luminosity Large Hadron Collider (HL-LHC): Technical design report

Aberle¹,

Carlier²,

Barzi³

et al. 2020

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Modeling of the Voltage Waves in the LHC Main Dipole Circuits

Ravaioli

Dahlerup-Petersen

Formenti

et al. 2012

IEEE Trans. Appl. Supercond.

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When a fast power abort is triggered in the LHC main dipole chain, voltage transients are generated at the output of the power converter and across the energy-extraction switches. The voltage waves propagate through the chain of 154 superconducting dipoles and can have undesired effects leading to spurious triggering of the quench protection system and firing of the quench heaters.The phase velocity of the waves travelling along the chain changes due to the inhomogeneous AC behavior of the dipoles. Furthermore, complex phenomena of reflection and superposition are present in the circuit. For these reasons analytical calculations are not sufficient for properly analyzing the circuit behavior after a fast power abort. The simulation results are presented in order to illustrate the behavior of the circuit and to assess its performance under different operating conditions. The comparison between measurement data and simulations shows a very good agreement.

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Test Result of the Short Models MQXFS3 and MQXFS5 for the HL-LHC Upgrade

Bajas

Ambrosio

Ballarino

et al. 2018

IEEE Trans. Appl. Supercond.

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Jens Steckert

The ALICE experiment at the CERN LHC

Testing beam-induced quench levels of LHC superconducting magnets

CERN Yellow Reports: Monographs, Vol. 10 (2020): High-Luminosity Large Hadron Collider (HL-LHC): Technical design report

Modeling of the Voltage Waves in the LHC Main Dipole Circuits

Test Result of the Short Models MQXFS3 and MQXFS5 for the HL-LHC Upgrade

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