Pierre Carbonez scite author profile

Pierre Carbonez

4Publications

53Citation Statements Received

56Citation Statements Given

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123

Affiliations

European Organization for Nuclear Research, University of Otago, Osaka University

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(Im-)possible ISOL beams

Köster

Carbonez

Dorsival

et al. 2007

Eur. Phys. J. Spec. Top.

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Refractory elements, i.e. elements with very high melting point and low vapor pressure, cannot be released in atomic form from an ISOL target. Therefore most of these elements are presently not available as ISOL beams. However, when reactive gases are introduced into the target, they may form volatile compounds with the refractory elements, allowing for an easier transport to the ion source. Particularly useful are high-temperature stable fluorides and oxides. By these chemical evaporation methods so far ISOL beams of the refractory elements C, Zr, Hf and Ta have been produced. We discuss how ISOL beams of B, Ti, Nb, Mo, Tc, Ru, W, Re, Os and Ir could be produced in a similar way. PACS. 28.60.+s Isotope separation -29.25.Ni Ion sources -29.25.Rm Sources of radioactive nuclei -82.40.-g Chemical kinetics and reactions: special regimes and techniques This work was supported by the EU-RTD project TAR-GISOL (contract HPRI-CT-2001-50033).1 This is valid when the type of atom-surface bonds is similar to that in solid state and the same monomolecular species dominate desorption and sublimation.

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First human imaging with MARS photon-counting CT

Panta¹,

Butler²,

Butler³

et al. 2018

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Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Nowak

Carbonez

Krauß

et al. 2020

Sci Rep

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We used the Timepix3 hybrid pixel detector technology in order to determine the exposure of medical personnel to ionizing radiation in an interventional radiology room. We measured the energy spectra of the scattered radiation generated by the patient during X-ray image-guided interventional procedures. We performed measurements at different positions and heights within the theatre. We first observed a difference in fluence for each staff member. As expected, we found that the person closest to the X-ray tube is the most exposed while the least exposed staff member is positioned at the patient’s feet. Additionally, we observed a shift in energy from head to toe for practitioners, clearly indicating a non-homogenous energy exposure. The photon counting Timepix3 detector provides a new tool for radiation field characterisation that is easier-to-use and more compact than conventional X-ray spectrometers. The spectral information is particularly valuable for optimising the use of radiation protection gear and improving dosimetry surveillance programs. We also found the device very useful for training purposes to provide awareness and understanding about radiation protection principles among interventional radiology staff.

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Cancer Imaging with Nanoparticles Using MARS Spectral Scanner

Moghiseh

Raja

Kumar

et al. 2018

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Pierre Carbonez

(Im-)possible ISOL beams

First human imaging with MARS photon-counting CT

Characterisation and mapping of scattered radiation fields in interventional radiology theatres

Cancer Imaging with Nanoparticles Using MARS Spectral Scanner

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