Implantation of defined activities of phosphorus 32 with reduced target damage

Materials doped with the unstable isotope phosphorus 32 are promising candidates for use in brachytherapeutic applications. One way to dope a material with 32P is by ion implantation. However, the bombardment of the target with ions other than 32P due to impurities of the ion beam leads to unnecessa...

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Published in:Review of scientific instruments 2018-11, Vol.89 (11), p.113304-113304
Main Authors: Heesch, Daniel, Rogalla, Detlef, Lenders, Thomas, Meijer, Jan, Happel, Patrick
Format: Article
Language:English
Subjects:
Beam leads
Brachytherapy - instrumentation
Brachytherapy - methods
Damage
Ion bombardment
Ion implantation
On-line systems
Phosphorus
Phosphorus 32
Phosphorus Radioisotopes - therapeutic use
Prostheses and Implants
Scientific apparatus & instruments
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container_end_page 113304
container_issue 11
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container_title Review of scientific instruments
container_volume 89
creator Heesch, Daniel
Rogalla, Detlef
Lenders, Thomas
Meijer, Jan
Happel, Patrick
description Materials doped with the unstable isotope phosphorus 32 are promising candidates for use in brachytherapeutic applications. One way to dope a material with 32P is by ion implantation. However, the bombardment of the target with ions other than 32P due to impurities of the ion beam leads to unnecessary damages of the target, which might reduce its potential for medical applications. Furthermore, implanting a pre-selected activity of an unstable isotope into a target requires the repeated determination of the target’s activity, which requires removing the target from the implantation chamber. This prolongs the total implantation time and requires handling the radioactive target multiple times, which in turn increases the risk of accidental exposure. We have incorporated an online-detector system into the implantation chamber of a 60 kV ion implanter that allowed us to determine the activity of the target without removing the target from the implantation chamber. We then used this system to investigate the implantation of ions with m = 38 u—instead of ions with m = 32 u—to reduce the fraction of other ions than 32P implanted into the target to reduce the induced damages.
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subjects Beam leads
Brachytherapy - instrumentation
Brachytherapy - methods
Damage
Ion bombardment
Ion implantation
On-line systems
Phosphorus
Phosphorus 32
Phosphorus Radioisotopes - therapeutic use
Prostheses and Implants
Scientific apparatus & instruments
title Implantation of defined activities of phosphorus 32 with reduced target damage
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