L. Ulrici scite author profile

L. Ulrici

5Publications

84Citation Statements Received

30Citation Statements Given

How they've been cited

112

How they cite others

Affiliations

Federal Criminal Court, European Organization for Nuclear Research, Laboratorio LASA

Publications

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Predicting Induced Radioactivity at High-Energy Electron Accelerators

Fassó

Silari

Ulrici

2000

Journal of Nuclear Science and Technology

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Radioactive nuclides are produced at high-energy electron accelerators by different kinds of particle interactions with accelerator components and shielding structures. Radioactivity can also be induced in air, cooling fluids, soil and groundwater. The physical reactions involved include spallations due to the hadronic component of electromagnetic showers, photonuclear reactions by intermediate energy photons and low-energy neutron capture. Although the amount of induced radioactivity is less important than that of proton accelerators by about two orders of magnitude, reliable methods to predict induced radioactivity distributions are essential in order to assess the environmental impact of a facility and to plan its decommissioning. Conventional techniques used so far are reviewed, and a new integrated approach is presented, based on an extension of methods used at proton accelerators and on the unique capability of the FLUKA Monte Carlo code to handle the whole joint electromagnetic and hadronic cascade, scoring residual nuclei produced by all relevant particles. The radiation aspects related to the operation of superconducting RF cavities are also addressed.

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Validation of the FLUKA Monte Carlo code for predicting induced radioactivity at high-energy accelerators

Brügger

Ferrari

Roesler

et al. 2006

Nuclear Instruments and Methods in Physics Research Section A:

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Benchmark studies of induced radioactivity produced in LHC materials, part I: specific activities

Brügger¹,

Khater²,

Mayer³

et al. 2005

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Samples of materials which will be used in the LHC machine for shielding and construction components were irradiated in the stray radiation field of the CERN-EU high-energy reference field facility. After irradiation, the specific activities induced in the various samples were analysed with a high-precision gamma spectrometer at various cooling times, allowing identification of isotopes with a wide range of half-lives. Furthermore, the irradiation experiment was simulated in detail with the FLUKA Monte Carlo code. A comparison of measured and calculated specific activities shows good agreement, supporting the use of FLUKA for estimating the level of induced activity in the LHC.

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Benchmark studies of induced radioactivity produced in LHC materials, part II: remanent dose rates

Brügger¹,

Khater²,

Mayer³

et al. 2005

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A new method to estimate remanent dose rates, to be used with the Monte Carlo code FLUKA, was benchmarked against measurements from an experiment that was performed at the CERN-EU high-energy reference field facility. An extensive collection of samples of different materials were placed downstream of, and laterally to, a copper target, intercepting a positively charged mixed hadron beam with a momentum of 120 GeV c(-1). Emphasis was put on the reduction of uncertainties by taking measures such as careful monitoring of the irradiation parameters, using different instruments to measure dose rates, adopting detailed elemental analyses of the irradiated materials and making detailed simulations of the irradiation experiment. The measured and calculated dose rates are in good agreement.

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Radionuclide characterization studies of radioactive waste produced at high-energy accelerators

Ulrici

Brügger

Otto

et al. 2006

Nuclear Instruments and Methods in Physics Research Section A:

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L. Ulrici

Predicting Induced Radioactivity at High-Energy Electron Accelerators

Validation of the FLUKA Monte Carlo code for predicting induced radioactivity at high-energy accelerators

Benchmark studies of induced radioactivity produced in LHC materials, part I: specific activities

Benchmark studies of induced radioactivity produced in LHC materials, part II: remanent dose rates

Radionuclide characterization studies of radioactive waste produced at high-energy accelerators

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