% IMPORTANT: The following is UTF-8 encoded. This means that in the presence
% of non-ASCII characters, it will not work with BibTeX 0.99 or older.
% Instead, you should use an up-to-date BibTeX implementation like “bibtex8” or
% “biber”.
@TECHREPORT{Tanihata:200601,
author = {Tanihata, Isao},
editor = {Geissel, Hans and Harakeh, Muhsin N. and Simon, Haik and
Grahn, Tuomas and Äystö, Juha and Scheidenberger,
Christoph and Behr, Karl-Heinz and Bracco, Angela and Gales,
Sydney and Hayano, Ryu and Nociforo, Chiara and Weick,
Helmut and Winkler, Martin and Zamfir, Victor},
title = {{C}onceptual {D}esign {R}eport for the {S}cientific
{P}rogram of the {S}uper-{FRS} {E}xperiment {C}ollaboration},
number = {GSI Report 2016-3},
address = {Darmstadt},
publisher = {GSI Helmholtzzentrum für Schwerionenforschung},
reportid = {GSI-2016-03763, GSI Report 2016-3},
pages = {30 Seiten},
year = {2016},
note = {CDR},
abstract = {This Conceptual Design Report (CDR) presents the plans of
the Super-FRS Experiment Collaboration for a variety of
experiments, which build on the versatile high-resolution
separator and spectrometer performance of the Super-FRS. The
characteristic feature of these experiments is the fact that
they use the separator as an integral part of the
measurement. These experiments build on the experience of
the collaboration and their scientific program pursued at
the FRS in the last 25 years, but also includes recently
developed novel topics.Under these premises, the Super-FRS
Experiment Collaboration has identified ten major topics of
current interest and with far-reaching scientific potential.
In this CDR, the scientific case is briefly recapitulated
and the conceptual design of the experiments, the setups and
their implementation are described. Much of the needed
equipment is already available or, if not, will be realized
with new, additional resources and efforts outside the FAIR
Cost Books. The related $R\&D$ works and some pilot
experiments can be carried out at the existing FRS of GSI in
FAIR Phase-0. On the midterm, the science program of this
collaboration can start at the commissioning phase of the
Super-FRS and will continue on the long term with the
established full performance. Accordingly, the prototype
equipment and other already existing devices can be tested
and used at the FRS and can later, when completed or
upgraded, be moved to the Super-FRS, see Appendix I. The
related developments and organization of the Super-FRS
Experiment Collaboration are described in Appendices II and
III, respectively; the collaboration partners and institutes
are listed in Appendix IV. The Super-FRS Experiment
Collaboration is formally and firmly established and is a
comprising part of the NUSTAR Collaboration. A large variety
of modern nuclear physics experiments with new scientific
possibilities and outstanding scientific potential were
presented in the scientific program (GSI-Report 2014-4),
which was very positively evaluated and approved by the
FAIR-ECE in its 4th meeting in June 2014. In its report, the
ECE encouraged the collaboration to develop TDRs. The
present CDR is the next step on the way to TDRs for the
ancillary equipment, that shall be integrated in the
Super-FRS.},
cin = {NUSTAR@GSI / SuperFRS@FAIR},
cid = {I:(DE-Ds200)Coll-GSI-NUSTAR /
I:(DE-Ds200)Coll-FAIR-SuperFRS},
pnm = {PSP 2.4.0 Super-FRS System Design (PSP-2-4-0) / GSI Machine
Super-FRS (GSILSFSuperFRS) / 612 - Cosmic Matter in the
Laboratory (POF3-612)},
pid = {G:(DE-Ds200)PSP-2-4-0 / G:(DE-Ds200)GSILSFSuperFRS /
G:(DE-HGF)POF3-612},
typ = {PUB:(DE-HGF)29},
doi = {10.15120/GSI-2016-03763},
url = {https://repository.gsi.de/record/200601},
}
Gast ::
