We describe an experiment designed to determine whether or not the densely ionizing particles emanating from the annihilation of antiprotons produce an increase in “biological dose” in the vicinity of the narrow Bragg peak for antiprotons compared to protons. This experiment is the first direct measurement of the biological effects of antiproton annihilation. The experiment has been approved by the CERN Research Board for running at the CERN Antiproton Decelerator (AD) as AD-4/ACE (Antiproton Cell Experiment) and has begun data taking in June of 2003. The background, description and the current status of the experiment are given
The overall goal of the AD-4 Experiment is to study whether antiprotons might be a better tool for c...
PURPOSE: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...
Purpose: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...
We describe an experiment designed to determine whether or not the densely ionizing particles emanat...
A new experiment, AD-4/ACE (antiproton cell experiment), has been approved by the CERN Research Boar...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Background and purpose: Antiprotons travel through tissue in a manner similar to that for protons un...
Background and purpose: Antiprotons travel through tissue in a manner similar to that for protons un...
Antiprotons travel through tissue in a manner similar to that for protons until they reach the end o...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
The overall goal of the AD-4 Experiment is to study whether antiprotons might be a better tool for c...
PURPOSE: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...
Purpose: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...
We describe an experiment designed to determine whether or not the densely ionizing particles emanat...
A new experiment, AD-4/ACE (antiproton cell experiment), has been approved by the CERN Research Boar...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Particle beam cancer therapy was introduced by Robert R. Wilson in 1947 based on the advantageous de...
Background and purpose: Antiprotons travel through tissue in a manner similar to that for protons un...
Background and purpose: Antiprotons travel through tissue in a manner similar to that for protons un...
Antiprotons travel through tissue in a manner similar to that for protons until they reach the end o...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
Antiprotons are interesting as a possible future modality in radiation therapy for the following rea...
The overall goal of the AD-4 Experiment is to study whether antiprotons might be a better tool for c...
PURPOSE: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...
Purpose: Radiotherapy of cancer carries a perceived risk of inducing secondary cancer and other dama...