FLUKA有关的文献资料

dongliang

publications


Most of the listed references below are available from the FLUKA webserver. In some cases the source is provided by the publisher of the respective journal in electronic form. This list is not complete and will be updated periodically.



G. Battistoni et al.,
Heavy ion interactions from Coulomb barrier to few GeV/n: Boltzman Master Equation theory and FLUKA code performance
Presented at 5th Latin American Symposium on Nuclear Physics, Santos, Brazil, 1-5 Sep 2003
Braz.J.Phys.34:897-900 (Sep 2004)

F. Ballarini et al.,
Nuclear models in FLUKA: present capabilities, open problems and future improvements
presented at ND2004, Santa Fe, 26 Sep - 1 Oct 2004
(SLAC-PUB-10813)

A. Fasso' et al.,
The physics models of FLUKA: status and recent developments
talk given at CHEP 03, La Jolla, California, 24-28 Mar 2003.
eConf C0303241:MOMT005 2003

A. Fasso' et al.,
The FLUKA code: present application and future developments
talk given at CHEP 03, La Jolla, California, 24-28 Mar 2003.
eConf C0303241:MOMT004 2003



A. Ferrari, and P.R. Sala,
Nuclear reactions in Monte Carlo codes
invited talk at the 13th Symposium on Microdosimetry, Stresa
May 27th-June 1st 2001
Radiat. Prot. Dosimetry 99, 29-38 (Jun 2002)

G. Collazuol, A. Ferrari, A. Guglielmi, and P.R. Sala,
Hadronic models and experimental data for the neutrino beam production
Nucl. Instr. Meth. in Phys. Res. A449, 609-623 (2000)

A. Fassò. M. Silari, L. Ulrici
Predicting induced activity at electron accelerators
Invited talk presented at the 9th Int. Conf. on Radiation Shielding, Tsukuba (Japan), Oct. 17-22, 1999
SLAC-PUB-8215

A. Ferrari, and P.R. Sala,
Treating high energy showers
Lecture given at the Training course on the use of MCNP in Radiation Protection and Dosimetry,
Bologna (Italy), 13-16 May 1996. ENEA, Roma, p. 233-264 (1998)

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala,
New developments in FLUKA modelling of hadronic and EM interactions,
Proc. 3rd Workshop on Simulating Accelerator Radiation Environments (SARE 3), KEK, Tsukuba, Japan,
7-9 May 1997, Ed. H. Hirayama, KEK Proceedings 97-5, 1997, p. 32

A. Ferrari, T. Rancati, P.R. Sala,
FLUKA applications in high energy problems: from LHC to ICARUS and atmospheric showers
Proc. 3rd Workshop on Simulating Accelerator Radiation Environments (SARE 3), KEK, Tsukuba, Japan,
7-9 May 1997, Ed. H. Hirayama, KEK Proceedings 97-5, 1997

A. Fassò, A. Ferrari, P.R. Sala,
Total Giant Resonance photonuclear cross sections for light nuclei: A database for the FLUKA Monte Carlo transport code
Proc. 3rd Specialists' Meeting on Shielding Aspects of Accelerators, Targets and Irradiation Facilities (SATIF 3), Tohoku University, Sendai, Japan, 12-13 May 1997, OECD-NEA 1998, p. 61

D. Cavalli, A. Ferrari, P.R. Sala
Simulation of nuclear effects in neutrino interactions
ICARUS-TM-97/18 (1997)

A. Ferrari, and P.R. Sala,
Intermediate and high energy models in FLUKA: improvements, benchmarks and applications
Proc. Int. Conf. on Nuclear Data for Science and Technology,NDST-97, Trieste (Italy), May 19-24 1997.
Ed. G. Reffo, A. Ventura and C. Grandi  (Bologna: Italian Phys. Soc.) Vol. 59, Part I,  p. 247 (1997)

A. Ferrari and P.R. Sala
GEANT hadronic event generators: a comparison at the single interaction level
ATLAS Internal Note Phys. No. 086 (1996)
The three hadronic packages of GEANT, including GFLUKA, are compared with each other and with standalone FLUKA.

A. Ferrari, and P.R. Sala,
The Physics of High Energy Reactions
Proc. Workshop on Nuclear Reaction Data and Nuclear Reactors Physics, Design and Safety,
International Centre for Theoretical Physics, Miramare-Trieste, Italy, 15 April-17 May 1996
Ed. A. Gandini and G. Reffo, World Scientific, p. 424 (1998)
An expanded version of the 1995 lecture "Physics of showers induced by accelerator beams", with special attention to nuclear effects. A good introduction especially to the physics of FLUKA hadron generators.

A. Ferrari, J. Ranft, S. Roesler, P.R. Sala
Cascade particles, nuclear evaporation, and residual nuclei in high energy hadron-nucleus interactions
Z. Phys. C70, 413-426 (1996)

A. Ferrari, J. Ranft, S. Roesler, P.R. Sala
The production of residual nuclei in peripheral high energy nucleus-nucleus interactions
Z. Phys. C71, 75-86 (1996)

M. Antonelli, G. Battistoni, A. Ferrari, P.R. Sala
Study of radiative muon interactions at 300 GeV
Proc.  VI Int. Conf.  on Calorimetry in High Energy Physics (Calor 96), Frascati (Italy) June 8-14, 1996
Ed. A. Antonelli, S. Bianco, A. Calcaterra, F.L. Fabbri, Frascati Physics Series Vol. VI, p. 561-570 (1997)

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala,
FLUKA: Performances and applications in the intermediate energy range
Proc. 1st AEN/NEA Specialists' Meeting on Shielding Aspects of Accelerators, Targets and Irradiation Facilities (SATIF 1), Arlington (Texas), Apr. 28-29 (1994). OECD Documents, 1995, p. 287-304
The PEANUT Preequilibrium-Intranuclear Cascade code is described in some detail, in particular the pion potential, and several effects ignored by most Intranuclear cascade codes (formation zone,nucleon antisymmetrization, nucleon-nucleon hard-core correlations, coherence length after elastic or charge exchange hadron-nucleon scattering). Several benchmarks are presented. Other aspects of FLUKA important for shielding design of intermediate-energy accelerators (in particular biasing) are described.

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala
An update about FLUKA
Proc. 2nd Workshop on Simulating Accelerator Radiation Environments (SARE 2), CERN, Geneva,
Switzerland 9-11 Oct.  1995.Ed. G.R. Stevenson, CERN Report TIS-RP/97-05 (1997), p. 158-170
FLUKA improvements in the period 1993-1995 concern: the multiple scattering algorithm (now enriched by a single-scattering algorithm at boundary crossing); the treatment of energy loss (improved ionization potential, handling of porous substances, ranging out particles below energy cutoff); PEANUT (preequilibrium model extended to 1.5 GeV, separate proton and neutron nuclear densities, shell model densities for light nuclei, anisotropy in the angular distribution of pion absorption, isobar model for pion production); fission; Fermi break-up for light nuclei; prediction of residual nuclei; Dual Parton Model generator (introduction of single chains, new chain building, new chain hadronization, 3 different kinds of diffractive events, transverse momentum selection both for chain ends and for individual partons, smeared mass distribution for resonances).

A. Ferrari, P.R. Sala,
Physics of showers induced by accelerator beams
Proc. 1995 "Frédéric Joliot" Summer School in Reactor Physics, Cadarache, France, August 22-30, 1995.
Ed. CEA, Vol. 1, lecture 5b (1996)
The basic aspects of particle interactions and showers between a few tens of MeV and several hundreds GeV, with emphasis on the range 20 MeV-2 GeV. Monte Carlo implementation is often illustrated using the models implemented in FLUKA.

A. Fassò, A. Ferrari, P.R. Sala,
Designing electron accelerator shielding with FLUKA
Proc. 8th Int. Conf. on Radiation Shielding, Arlington (Texas) Apr. 24-28 1994, p. 643-649
Implementation of photonuclear reactions in FLUKA over the whole energy range make it a unique code for electron
accelerator shielding. The four models adopted (Giant Dipole Resonance, Quasi-Deuteron, Delta Resonance and
Vector Meson Dominance) are described and some benchmarks are reported.

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala, G.R. Stevenson, J.M. Zazula
A comparison of FLUKA simulations with measurements of fluence and dose in calorimeter structures
Nucl. Instr. Meth. in Phys. Res. A332, 459-468 (1993)
In this benchmark experiment, FLUKA was shown to predict with good accuracy the most important features of hadronic cascades
(lateral and longitudinal distributions of energy deposition and of hadrons fluence at different energies).

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala, G.R. Stevenson, J.M. Zazula
FLUKA92
Proc. 1st Workshop on Simulating Accelerator Radiation Environments (SARE 1),
Santa Fe (New Mexico) 11-15 January 1993, Los Alamos Report LA-12835-C (1994), p. 134-144
A short but exhaustive description of the first version of FLUKA in its present form. In the next three papers below,
three components  are reviewed in greater detail (high energy hadrons, electrons and photons, and  hadrons of
intermediate energies).

P. Aarnio, A. Fassò, A. Ferrari, H.-J. Möhring, J. Ranft, P.R. Sala, G.R. Stevenson, J.M. Zazula
FLUKA: hadronic benchmarks and applications
Proc. Int. Conference on Monte Carlo Simulation in High Energy and Nuclear Physics (MC93),
Tallahassee (Florida) 22-26 February 1993, Ed. P. Dragovitsch, S.L. Linn, M. Burbank (1994), p. 88-99
In addition to the hadronic benchmarks announced in the title, this paper  gives a general outline of the code: its history,
its main features, and  the most important modifications with respect to FLUKA86/87.

P. Aarnio, A. Fassò, A. Ferrari, H.-J. Möhring, J. Ranft, P.R. Sala, G.R. Stevenson, J.M. Zazula
Electron-photon transport: always so good as we think? Experience with FLUKA
Proc. Int. Conference on Monte Carlo Simulation in High Energy and Nuclear Physics (MC93),
Tallahassee (Florida) 22-26 February 1993, Ed. P. Dragovitsch, S.L. Linn, M. Burbank (1994), p. 100-110
A general review of electron-photon transport codes and their state of art . The stress is put on artifacts and in general on
possible limitations to accuracy.  Attempts to overcome such limitations in FLUKA are described.

A. Ferrari, P.R.Sala
A new model for hadronic interactions at intermediate energies for the FLUKA code
Proc. Int. Conference on Monte Carlo Simulation in High Energy and Nuclear Physics (MC93),
Tallahassee (Florida) 22-26 February 1993, Ed. P. Dragovitsch, S.L. Linn, M. Burbank (1994), p. 277-288
The first description of PEANUT, the FLUKA PreEquilibrium Approach to Nuclear Thermalization.  The version
presented here covered the energy range between 20 and 300 MeV, but the most recent version extends up to  a few GeV.

A. Fassò, A. Ferrari, J. Ranft, P.R. Sala,
FLUKA: present status and future developments
Proc. IV Int. Conf. on Calorimetry in High Energy Physics, La Biodola, Italy, 21-26 Sept. 1993,
Ed. A. Menzione and A. Scribano, World Scientific, p. 493
The standard reference for the 1993 version of FLUKA and also of GFLUKA (the version implemented in GEANT).

A. Ferrari, P.R.Sala, R. Guaraldi and F. Padoani
An improved multiple scattering model for charged particle transport
Nucl. Instr. Meth. in Phys. Res. B71, 412-426 (1992)
The unique multiple scattering algorithm of FLUKA, applied not only to the transport of electrons, but also of
all other charged particles, is described here. Later, the algorithm has been furtherly refined by adding a single
scattering step at boundary crossing.

E. Cuccoli, A. Ferrari, G.C. Panini
A group library from JEF 1.1 for flux calculations in the LHC machine detectors
JEF-DOC-340 (91) (1991)
This is still the only reference for the FLUKA neutron multigroup library.  The present version of FLUKA contains many
more nuclei and additional information (e.g. about residual nuclei). See the manual for details.

A. Ferrari, P.R.Sala, A. Fassò,  G.R. Stevenson
Can we predict radiation levels in calorimeters?
Proc. 2nd Int. Conf. on Calorimetry in High Energy Physics, Capri (Italy) Oct. 14-18, 1991.
Ed. A. Ereditato, World Scientific 1992, p.  101-116
The first paper on the modern version of FLUKA (at that time called FLUKAN).  Table 1  lists the main differences with
respect to the old FLUKA86 version.