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multilayer ionization chamber zebra  (IBA Dosimetry)

 
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    Structured Review

    IBA Dosimetry multilayer ionization chamber zebra
    (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the <t>MLIC</t> device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.
    Multilayer Ionization Chamber Zebra, supplied by IBA Dosimetry, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/multilayer ionization chamber zebra/product/IBA Dosimetry
    Average 90 stars, based on 1 article reviews
    multilayer ionization chamber zebra - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Implementation of a proton FLASH platform for pre-clinical studies using a gantry-mounted synchrocyclotron"

    Article Title: Implementation of a proton FLASH platform for pre-clinical studies using a gantry-mounted synchrocyclotron

    Journal: Physics in Medicine and Biology

    doi: 10.1088/1361-6560/add106

    (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the MLIC device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.
    Figure Legend Snippet: (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the MLIC device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.

    Techniques Used: Transmission Assay, Irradiation



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    (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the <t>MLIC</t> device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.
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    Image Search Results


    (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the MLIC device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.

    Journal: Physics in Medicine and Biology

    Article Title: Implementation of a proton FLASH platform for pre-clinical studies using a gantry-mounted synchrocyclotron

    doi: 10.1088/1361-6560/add106

    Figure Lengend Snippet: (a), (b) The FLASH accessory composed of a transmission ion chamber (TIC) at its proximal face to the nozzle, an aluminum tray housing beam shaping components: a range modulator (hole-filter, HF) used to form an SOBP, B 4 C and Lucite (LP) blocks (6 × 6 cm 2 cross sectional area) to shift the proton beam range, and a brass aperture (BA) for beam shaping. (c) Macro pulse structure of the proton synchrocyclotron output radiation. (d)–(g) Brass apertures with 9.43 mm thickness and different opening shapes and sizes. (h), (i) An example arrangement of components in the proton beamline for configuration SOBP#8. The red and green arrows, respectively, show the proton beam path past the TIC and exit towards the irradiation target. (j) Range modulator hole-filter. (k) IDD measurement setup using the MLIC device, Zebra. (l) Lateral dose profile measurement setup using a scintillator screen coupled to a CCD camera device, Lynx. (m) Dose measurement setup using a parallel plate ionization chamber, PPC05.

    Article Snippet: A multilayer ionization chamber (MLIC) device (Zebra, IBA Dosimetry GmbH, Germany) was used to measure the IDDs for the beam modifying material configurations considered in this study.

    Techniques: Transmission Assay, Irradiation