Coordinatori
S5.3 Novel Sources: FEL/Laser/Plasma
- Sultan Dabagov (LNF)
Prof.
Aldo Spallone
(Embassy of Italy in Russian Federation)
28/09/18, 09:00
Oral presentation
Modern Neurosurgery is directed towards mini invasive for the reduction of post-operative complications.
A common strategy between mini invasive neurosurgery and other parasurgical modalities , between which radiotherapy is the main tool, may represent the best available option, and the strategic treatment modality in the future.
I present shortly here my view based on my personal...
Dr.
Sergey Polozov
(NRNU MEPhI)
28/09/18, 09:30
Oral presentation
In this report we present new information about one of the largest Russian scientific projects, a new and advanced 6 GeV 4-th generation radiation facility based on both synchrotron and FEL radiation. The report summarizes the results of preliminary research of SSRS4 general layout and accelerator complex parameters.
Luca Serafini
(MI)
28/09/18, 10:00
Oral presentation
We developed a Design Study for a combined X-ray source system spanning the 0.3-150 keV photon energy range with un-precedented characteristics of brilliance, flux and coherence. The machine is based on an innovative scheme combining a compact 100 MeV energy recovery Super-Conducting Linac and a 1.5 GeV two-pass CW-SC Linac that can boost the electron beam energy up to 3.8 GeV via a newly...
Dr.
Victor Verzilov
(TRIUMF)
28/09/18, 10:30
Oral presentation
The TRIUMF Laboratory, located in Vancouver, Canada, presently undergoes the final stage of construction of an Advanced Radioactive Isotope production facility that will substantially enlarge its Nuclear Physics program [1]. One of the key component of the facility is a 50MeV 10mA CW linear electron accelerator. The construction of the linac has been completed and it is now in the...
Cristina Vaccarezza
(LNF)
28/09/18, 10:45
Oral presentation
An advanced accelerator facility EUPRAXIA@SPARC_LAB has been proposed to be realized at Frascati (Italy) Laboratories of INFN in the framework of the Eupraxia Design Study. Two advanced acceleration schemes will be applied: an ultimate high gradient 1 GeV X-band linac together with a plasma acceleration stage to provide accelerating gradients of the GeV/m order. A FEL scheme is foreseen to...
