学术报告:On nuclear astrophysics with indirect methods and a new facility at IFIN-HH Bucharest, Romania

报告题目:On nuclear astrophysics with indirect methods and a new facility at IFIN-HH Bucharest, Romania

报 告 人:Livius Marian Trache (Scientific director of IFIN-HH, Bucharest-Magurele, ROMANIA)

报告时间:2015年6月12日(星期五)上午9:30-11:00

报告地点:张江办公楼109会议室

报告简介:

I will present briefly a few methods used in nuclear astrophysics, illustrated with exemples from my own work in different laboratories in the world. Then I will present briefly the institute IFIN-HH in Bucharest and in particular the applied nuclear physics work that we pursue here. In the end I will introduce a new facility ELI-NP that is being built in our institute and underline a few connections we could have with activities at SINAP.

报告人简介:

Livius Marian Trache
Born in Romania, Dec 1952
Studies in Romania at the University of Bucharest
PhD in 1987.
Works at the National institute for Physics and Engineering, Bucharest-Magurele, as Senior scientist and Scientific Director
Worked at IUCN Dubna, Univ of Cologne, Germany, KVI Groningen, The Netherlands.
Between 1993 and 2013 worked at the Cyclotron Institute, Texas A&M University, College Station, USA.
Work in nuclear structure, nuclear reactions, nuclear astrophysics and applications of nuclear physics.
A versatile physicist with over 38 years experience of work in several nuclear physics laboratories in Eastern and Western Europe, Russia and USA. Research in experimental nuclear physics, with contributions in nuclear structure, in nuclear astrophysics, and in reactions between heavy ions, including reactions with radioactive nuclear beams. Have developed theoretical models needed to describe the nuclear structure studied, and for new indirect methods for nuclear astrophysics. Experienced in equipment design and construction and also in applied nuclear physics, ranging from the analysis of macroelements (at percent level) and trace elements (at or under part per million level) in archaeological material and in semiconductors using atomic and nuclear methods (XRF, PIXE, neutron activation, proton or deuteron activation), to the detection of nuclear radiation.