Gregory Severin
(Michigan State University)
12/10/2018, 09:00
7 - Targets for special applications (medical, industrial, controlled fusion)
Invited
The process of harvesting isotopes from beam dumps and other activated materials at accelerator facilities is becoming an important tool for accessing difficult-to-produce radionuclides (e.g. ERAWAST at PSI). At FRIB, the unique design of the water-filled beamstop will allow rapid access to the multitude of short- and long-lived isotopes that are formed as a result of stopping fast heavy ion...
Mr
John Greene
(Argonne National Laboratory)
12/10/2018, 09:40
7 - Targets for special applications (medical, industrial, controlled fusion)
Oral
For accelerator targets, graphene films are an excellent material choice due to their high thermal conductivity, high temperature tolerance, low outgassing, mechanical integrity, and ease of handling. A variety of targets have been produced using graphene material as a backing or a host matrix. One of the unique advantages of the graphene film fabrication process is the capability to embed...
Dr
Matthew Gott
(Argonne National Laboratory)
12/10/2018, 10:00
7 - Targets for special applications (medical, industrial, controlled fusion)
Oral
The Californium Rare Ion Breeder Upgrade (CARIBU) project utilizes 252Cf to access species not produced in the low-energy fission of uranium as well as producing elements that are difficult to extract using standard ISOL techniques. CARIBU provides beams of neutron rich species to the Argonne Tandem Linear Accelerator System (ATLAS) which are accelerated up to ~ 10 MeV/u for nuclear physics...
Dr
Peter Kunz
(TRIUMF)
12/10/2018, 10:40
7 - Targets for special applications (medical, industrial, controlled fusion)
Oral
The Isotope Separation and Acceleration (ISAC) facility1 at TRIUMF provides a wide range of radioactive isotope beams (RIB) by irradiating ISOL-type (Isotope Separation OnLine) targets with a 480 MeV proton beam from the TRIUMF H- cyclotron. The majority of the available beamtime is used for basic research in the fields of nuclear astrophysics, nuclear structure and material...
Dr
Anna STOLARZ
(Heavy Ion Laboratory, University of Warsaw)
12/10/2018, 11:00
7 - Targets for special applications (medical, industrial, controlled fusion)
Oral
The scandium radioisotopes for medical application can be produced in reactions of calcium with proton, deuteron or alpha projectiles and in reaction of titanium with protons.
Majority of our studies was performed using reaction of Ca, both natural and enriched material, with various projectiles. The research quantities of scandium radioisotopes are produced at HIL UW with two charged...