Add to ORKGAbstract The Heidelberg Ion Therapy Center HIT is in clinical operation since 2009. It is the first dedicated European particle accelerator for medical treatment. Its central location on the campus of the Heidelberg University Hospital fits perfectly in the clinical everyday life. The accelerator complex consists of a linear accelerator and a synchrotron and is designed for protons and carbon ions, but can also provide helium and oxygen ions. The LINAC, build in 2006, operates since 5 years in a 24/7 schema which leads to 60000 operating hours up to now. The performance with an availability of better than 99% is much higher than expected and is caused by a solid design and a well planned and foresighted maintenance. Unavoidable failures dur...
Danfysik and Siemens have entered a cooperation to market and build Particle Therapy * systems for c...
Only 1% of the 18,000 world accelerators are devoted to the production of radioisotopes for medical ...
Presently in Europe the first generation of particle-therapy accelerators is being put into operatio...
A clinical accelerator facility for cancer therapy using energetic proton and ion beams (C, He and O...
The Heidelberg Ion Beam Therapy Centre (HIT) is a worldwide unique radiation therapy facility and th...
The Heidelberg Ion Therapy Facility (HIT) is the first dedicated proton and carbon cancer therapy fa...
HICAT is a hospital-based heavy ion accelerator facility for cancer treatment presently being built ...
The synchrotron-based MedAustron accelerator in Wiener Neustadt, Austria, has seen the first clinica...
The thesis focuses mainly on demonstrating the possibility to successfully employ a full-LINAC proto...
The HICAT project is a Heavy Ion accelerator for light ion Cancer Treatment to be built for the clin...
The ion beam laboratory ISL produced fast light and heavy ions for research and applications in soli...
The advantageous depth dose profile of ion beams together with state of the art beam delivery and tr...
Particle therapy (including protons and carbon ions) allows a highly conformal treatment of deep-sea...
Specific requirements of accelerators for radiation therapy with protons or ions will be discussed. ...
Part III: • Daily operations of a particle therapy centre: Experiences from the first five years at ...
Danfysik and Siemens have entered a cooperation to market and build Particle Therapy * systems for c...
Only 1% of the 18,000 world accelerators are devoted to the production of radioisotopes for medical ...
Presently in Europe the first generation of particle-therapy accelerators is being put into operatio...
A clinical accelerator facility for cancer therapy using energetic proton and ion beams (C, He and O...
The Heidelberg Ion Beam Therapy Centre (HIT) is a worldwide unique radiation therapy facility and th...
The Heidelberg Ion Therapy Facility (HIT) is the first dedicated proton and carbon cancer therapy fa...
HICAT is a hospital-based heavy ion accelerator facility for cancer treatment presently being built ...
The synchrotron-based MedAustron accelerator in Wiener Neustadt, Austria, has seen the first clinica...
The thesis focuses mainly on demonstrating the possibility to successfully employ a full-LINAC proto...
The HICAT project is a Heavy Ion accelerator for light ion Cancer Treatment to be built for the clin...
The ion beam laboratory ISL produced fast light and heavy ions for research and applications in soli...
The advantageous depth dose profile of ion beams together with state of the art beam delivery and tr...
Particle therapy (including protons and carbon ions) allows a highly conformal treatment of deep-sea...
Specific requirements of accelerators for radiation therapy with protons or ions will be discussed. ...
Part III: • Daily operations of a particle therapy centre: Experiences from the first five years at ...
Danfysik and Siemens have entered a cooperation to market and build Particle Therapy * systems for c...
Only 1% of the 18,000 world accelerators are devoted to the production of radioisotopes for medical ...
Presently in Europe the first generation of particle-therapy accelerators is being put into operatio...