Add to ORKGThis study involves the measurement of the neutron equivalent dose ( NED) and the induced activity produced from medical linear accelerators. For the NED, various parameters such as the profile, field effects and energy responses were studied. The NED in a Solid Water(TM) phantom was measured and a new quantity, the neutron equivalent dose tissue-air ratio (NTAR), was defined and determined. Neutron production for electron beams was also measured. For the induced activity, comparisons were carried out between different linacs, fields and dose rates. The half life and activation saturation were also studied. A mathematical model of induced activity was developed to explain the experimental results. Room surveys of NED and induced ac...
High energy electron linear accelerators (LINACs) producing photon beams with energies higher than 1...
High-energy linear accelerators (linacs) have several advantages, including low skin doses and high ...
The neutron and gamma doses are crucial to interpreting the radiation effects in microelectronic dev...
In cancer treatment, high energy X-rays are used which are produced by linear accelerators (LINACs)....
Conventional linear accelerators (LINACs) for radiotherapy produce fast secondary neutrons due to ph...
Medical linear accelerators (linacs) operated above 8 MV photon energy have their output contaminate...
Graduation date: 2011The photoneutron production from three Varian linear accelerators ranging in en...
Cancer is one of the main disease to threat for human health. Besides surgery and medical treatment ...
High energy electron accelerators installed in hospitals to provide routine electron and X-ray thera...
Bremsstrahlung X-rays from high-energy linear accelerators (Linacs) produce neutrons as a result ofp...
In medical applications, high-energy linear accelerators are increasingly used. However, during a ca...
High energy linacs have several advantages including lower skin dose and higher dose rate at deep si...
AbstractHigh-energy linear accelerators are increasingly used in the medical field. However, the unw...
In medical applications, high-energy linear accelerators are increasingly used. However, during a ca...
AbstractBackgroundHigh-energy photon and electron therapeutic beams generated in medical linear acce...
High energy electron linear accelerators (LINACs) producing photon beams with energies higher than 1...
High-energy linear accelerators (linacs) have several advantages, including low skin doses and high ...
The neutron and gamma doses are crucial to interpreting the radiation effects in microelectronic dev...
In cancer treatment, high energy X-rays are used which are produced by linear accelerators (LINACs)....
Conventional linear accelerators (LINACs) for radiotherapy produce fast secondary neutrons due to ph...
Medical linear accelerators (linacs) operated above 8 MV photon energy have their output contaminate...
Graduation date: 2011The photoneutron production from three Varian linear accelerators ranging in en...
Cancer is one of the main disease to threat for human health. Besides surgery and medical treatment ...
High energy electron accelerators installed in hospitals to provide routine electron and X-ray thera...
Bremsstrahlung X-rays from high-energy linear accelerators (Linacs) produce neutrons as a result ofp...
In medical applications, high-energy linear accelerators are increasingly used. However, during a ca...
High energy linacs have several advantages including lower skin dose and higher dose rate at deep si...
AbstractHigh-energy linear accelerators are increasingly used in the medical field. However, the unw...
In medical applications, high-energy linear accelerators are increasingly used. However, during a ca...
AbstractBackgroundHigh-energy photon and electron therapeutic beams generated in medical linear acce...
High energy electron linear accelerators (LINACs) producing photon beams with energies higher than 1...
High-energy linear accelerators (linacs) have several advantages, including low skin doses and high ...
The neutron and gamma doses are crucial to interpreting the radiation effects in microelectronic dev...