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Charge density: A probe for the nuclear interaction in microscopic transport models

  • E. GalichetEmail author
  • F. Gulminelli
  • D. C. R. Guinet
  • M. F. Rivet
  • J. F. Lecolley
  • R. Bougault
  • G. Auger
  • B. Borderie
  • B. Bouriquet
  • A. Buta
  • J. L. Charvet
  • A. Chbihi
  • J. Colin
  • D. Cussol
  • R. Dayras
  • D. Durand
  • J. D. Frankland
  • B. Guiot
  • S. Hudan
  • P. Lautesse
  • F. Lavaud
  • N. Le Neindre
  • O. Lopez
  • L. Manduci
  • J. Marie
  • L. Nalpas
  • J. Normand
  • M. Pârlog
  • P. Paw\lowski
  • E. Plagnol
  • E. Rosato
  • J. C. Steckmeyer
  • B. Tamain
  • A. Van Lauwe
  • E. Vient
  • C. Volant
  • J. P. Wieleczko
  • INDRA Collaboration
OriginalPaper

Abstract.

The transport properties of the 36Ar +58Ni system at \(95 \mathrm{A} \cdot \mathrm{MeV}\) measured with the INDRA array, are studied within the BNV kinetic equation. A general protocol of comparison between the N-body experimental fragment information and the one-body distribution function is developed using global variables, with a special focus on charge density. This procedure avoids any definition of sources and any use of an afterburner in the simulation. We shall discuss the feasibility of such an approach and the distortions induced by the finite detection efficiency and the completeness requirements of the data selection. The sensitivity of the different global observables to the macroscopic parameters of the effective nuclear interaction will be studied in detail.

Keywords

Charge Density Transport Property Kinetic Equation Transport Model Special Focus 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Copyright information

© Springer-Verlag Berlin/Heidelberg 2003

Authors and Affiliations

  • E. Galichet
    • 1
    • 2
    Email author
  • F. Gulminelli
    • 3
  • D. C. R. Guinet
    • 4
  • M. F. Rivet
    • 1
  • J. F. Lecolley
    • 3
  • R. Bougault
    • 3
  • G. Auger
    • 5
  • B. Borderie
    • 1
  • B. Bouriquet
    • 5
  • A. Buta
    • 3
  • J. L. Charvet
    • 6
  • A. Chbihi
    • 5
  • J. Colin
    • 3
  • D. Cussol
    • 3
  • R. Dayras
    • 6
  • D. Durand
    • 3
  • J. D. Frankland
    • 5
  • B. Guiot
    • 5
  • S. Hudan
    • 5
  • P. Lautesse
    • 4
  • F. Lavaud
    • 1
  • N. Le Neindre
    • 5
  • O. Lopez
    • 3
  • L. Manduci
    • 3
  • J. Marie
    • 3
  • L. Nalpas
    • 6
  • J. Normand
    • 3
  • M. Pârlog
    • 1
    • 7
  • P. Paw\lowski
    • 1
  • E. Plagnol
    • 1
  • E. Rosato
    • 8
  • J. C. Steckmeyer
    • 3
  • B. Tamain
    • 3
  • A. Van Lauwe
    • 3
  • E. Vient
    • 3
  • C. Volant
    • 6
  • J. P. Wieleczko
    • 5
  • INDRA Collaboration
    • 1
  1. 1.Institut de Physique NucléaireIN2P3-CNRSOrsay cedexFrance
  2. 2.Conservatoire National des Arts et MétiersParis cedex 03France
  3. 3.LPC Caen (IN2P3-CNRS/ENSICAEN et Université)Caen cedexFrance
  4. 4.Institut de Physique NucléaireIN2P3-CNRS et UniversitéVilleurbanne cedexFrance
  5. 5.GANILCEA et IN2P3-CNRSCaen cedexFrance
  6. 6.DAPNIA/SPhNCEA/SaclayGif-sur-YvetteFrance
  7. 7.National Institute for Physics and Nuclear EngineeringBucharest-MagureleRomania
  8. 8.Dipartimento di Scienze Fisiche e Sezione INFNUniversità di Napoli “Federico II”NapoliItaly

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