In proton therapy, cancer patients are irradiated with high energy protons. For a successful treatment it is important that the location with the highest energy deposition, the so-called Bragg-peak, is located inside the tumor and not in the healthy surrounding tissue. Here, we investigate if the iono-acoustic wave field generated by the protons can be used to monitor the Bragg-peak location during treatment. To this end we present a new numerical method to model the pressure field generated by a clinical proton pencil beam. To compute the field, we convolve a 3-D Greens function, representing the impulse response of the medium, with a volume density of injection rate source. This source describes the expansion of the medium due to a local ...
In the present work we investigate the fundamental properties of a proton beam's electromagnetic sig...
We compute spatiotemporal profiles of the electric field coming from a one-dimensional proton beam a...
Ions provide a more advantageous dose distribution than photons for external beam radiotherapy, due ...
In proton therapy, cancer patients are irradiated with high energy protons. For a successful treatme...
In proton therapy high energy protons are used to irradiate a tumor. Ideally, the delivered proton d...
Proton therapy has the potential to deposit its energy in tissue with high conformity to the tumor a...
PURPOSE: Range verification in ion beam therapy relies to date on nuclear imaging techniques which r...
An in vivo range verification technology for proton beam cancer therapy, preferably in real-time and...
Proton range verification by ionoacoustic wave sensing is a technique under development for applicat...
[EN] Hadrontherapy makes it possible to deliver high doses of energy to cancerous tumors by using th...
[EN] A full chain simulation of the acoustic hadron therapy monitoring for brain tumors is presented...
This study proposes a novel alternative range-verification method for proton beam with acoustic wave...
Purpose: The Bragg peak located at the end of the ion beam range is one of the main advantages of io...
Proton radiotherapy has the potential to provide state-of-the-art dose conformality in the tumor are...
Ions provide a more advantageous dose distribution than photons for external beam radiotherapy, due ...
In the present work we investigate the fundamental properties of a proton beam's electromagnetic sig...
We compute spatiotemporal profiles of the electric field coming from a one-dimensional proton beam a...
Ions provide a more advantageous dose distribution than photons for external beam radiotherapy, due ...
In proton therapy, cancer patients are irradiated with high energy protons. For a successful treatme...
In proton therapy high energy protons are used to irradiate a tumor. Ideally, the delivered proton d...
Proton therapy has the potential to deposit its energy in tissue with high conformity to the tumor a...
PURPOSE: Range verification in ion beam therapy relies to date on nuclear imaging techniques which r...
An in vivo range verification technology for proton beam cancer therapy, preferably in real-time and...
Proton range verification by ionoacoustic wave sensing is a technique under development for applicat...
[EN] Hadrontherapy makes it possible to deliver high doses of energy to cancerous tumors by using th...
[EN] A full chain simulation of the acoustic hadron therapy monitoring for brain tumors is presented...
This study proposes a novel alternative range-verification method for proton beam with acoustic wave...
Purpose: The Bragg peak located at the end of the ion beam range is one of the main advantages of io...
Proton radiotherapy has the potential to provide state-of-the-art dose conformality in the tumor are...
Ions provide a more advantageous dose distribution than photons for external beam radiotherapy, due ...
In the present work we investigate the fundamental properties of a proton beam's electromagnetic sig...
We compute spatiotemporal profiles of the electric field coming from a one-dimensional proton beam a...
Ions provide a more advantageous dose distribution than photons for external beam radiotherapy, due ...