Add to ORKGModern dual photon energy linear accelerators often come with a few megavoltage electron beams. The megavoltage electron beam has limited range and relative sharp distal falloff in its depth dose curve compared to that of megavoltage photon beam. Its radiation dose is often delivered appositionally to cover the target volume to its distal 90 % depth dose (d90), while avoiding the normal- sometimes critical-structure immediately distal to the target. Varian linear accelerators currently offer selected electron beams of 4, 6, 9, 12, 16 and 20 MeV electron beam energies. However, intermediate electron energy is often needed for optimal dose distribution. In this study we investigated electron beam characteristics and implemented two intermedia...
International audienceThe Platform for Research and Applications with Electrons (PRAE) project aims ...
Very high energy electrons (VHEEs) (100-250 MeV) have the potential of becoming an alternative modal...
High-energy electron beams in the range 150-250 MeV are studied to evaluate the feasibility for rad...
Introduction: Radiotherapy uses high-energy radiation to shrink tumors and kill cancer cells. The ra...
The purpose of this study was to evaluate very high energy electron beams in radiation therapy. Radi...
Objectives: The purpose of this study was to modify a clinical linear accelerator, making it capable...
Purpose: Commissioning of a linear accelerator is a process of acquiring a set of data used for pati...
Purpose: To evaluate the dose distribution of a 120-MeV laser-plasma accelerated electron beam which...
We have performed dosimetry studies using electron beams with energies up to 50 MeV, which exceed cu...
The aim of the present research was to establish primary characteristics of electron beams for a Var...
Monthly QA is recommended to verify the constancy of high-energy electron beams generated for clinic...
Background: Understanding of the incident elec-tron energy and angular distributions from clinical e...
[[abstract]]©2003 Elsevier - Object: The project was designed to study the effect of the same apertu...
There is need for simple methods for checking consistency of beam outputs and energy in linear accel...
The electron linear accelerator is considered by many leading radiotherapy centres throughout the wo...
International audienceThe Platform for Research and Applications with Electrons (PRAE) project aims ...
Very high energy electrons (VHEEs) (100-250 MeV) have the potential of becoming an alternative modal...
High-energy electron beams in the range 150-250 MeV are studied to evaluate the feasibility for rad...
Introduction: Radiotherapy uses high-energy radiation to shrink tumors and kill cancer cells. The ra...
The purpose of this study was to evaluate very high energy electron beams in radiation therapy. Radi...
Objectives: The purpose of this study was to modify a clinical linear accelerator, making it capable...
Purpose: Commissioning of a linear accelerator is a process of acquiring a set of data used for pati...
Purpose: To evaluate the dose distribution of a 120-MeV laser-plasma accelerated electron beam which...
We have performed dosimetry studies using electron beams with energies up to 50 MeV, which exceed cu...
The aim of the present research was to establish primary characteristics of electron beams for a Var...
Monthly QA is recommended to verify the constancy of high-energy electron beams generated for clinic...
Background: Understanding of the incident elec-tron energy and angular distributions from clinical e...
[[abstract]]©2003 Elsevier - Object: The project was designed to study the effect of the same apertu...
There is need for simple methods for checking consistency of beam outputs and energy in linear accel...
The electron linear accelerator is considered by many leading radiotherapy centres throughout the wo...
International audienceThe Platform for Research and Applications with Electrons (PRAE) project aims ...
Very high energy electrons (VHEEs) (100-250 MeV) have the potential of becoming an alternative modal...
High-energy electron beams in the range 150-250 MeV are studied to evaluate the feasibility for rad...