Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon

R. Wada; D. Fabris; K. Hagel; G. Nebbia; Y. Lou; M. Gonin; J. B. Natowitz; R. Billerey; B. Cheynis; A. Demeyer; D. Drain; D. Guinet; C. Pastor; L. Vagneron; K. Zaid; J. Alarja; A. Giorni; D. Heuer; C. Morand; B. Viano; C. Mazur; C. Ng; S. Leray; R. Lucas; M. Ribrag; E. Tomasi

doi:10.1103/PhysRevC.39.497

Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon

R. Wada
, D. Fabris
, K. Hagel
, G. Nebbia
, Y. Lou
, M. Gonin
, J. B. Natowitz
, R. Billerey
, B. Cheynis
, A. Demeyer
, D. Drain
, D. Guinet
, C. Pastor
, L. Vagneron
, K. Zaid
, J. Alarja
, A. Giorni
, D. Heuer
, C. Morand
, B. Viano

C. Mazur, C. Ng, S. Leray, R. Lucas, M. Ribrag, E. Tomasi

Cyclotron Institute
Institut de Physique des 2 Infinis de Lyon
Laboratoire de Physique Subatomique et de Cosmologie de Grenoble
Institut Pierre Simon Laplace, CNRS and CEA

Research output: Contribution to journal › Article › peer-review

Abstract

For the reactions of 30 MeV/nucleon O16 and S32 with Ag, singles and coincidence measurements have been made for heavy residues, fragments (3z14), and light charged particles (z2). Mass-velocity correlations for the residues and fragment-residue coincidences indicate that increasing residue velocities do correspond to increasing excitation energy. Excitation energies as high as 90% of those which would result from complete fusion are reached. The spectra of light particles detected in coincidence with residue groups having different average velocities are analyzed with a moving source fit. When recoil effects are properly taken into account, excellent fits to the data are obtained. From the energy spectra and multiplicities of particles emitted from a fusion-like source the initial temperatures of the primary composite nuclei are determined. The results suggest that a plateau temperature near 6.5 MeV is reached above excitation energies of 3 MeV/nucleon. The temperatures are compared to those resulting from various model calculations.

Original language	English
Pages (from-to)	497-515
Number of pages	19
Journal	Physical Review C - Nuclear Physics
Volume	39
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevC.39.497
Publication status	Published - 1 Jan 1989
Externally published	Yes

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Wada, R., Fabris, D., Hagel, K., Nebbia, G., Lou, Y., Gonin, M., Natowitz, J. B., Billerey, R., Cheynis, B., Demeyer, A., Drain, D., Guinet, D., Pastor, C., Vagneron, L., Zaid, K., Alarja, J., Giorni, A., Heuer, D., Morand, C., ... Tomasi, E. (1989). Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon. Physical Review C - Nuclear Physics, 39(2), 497-515. https://doi.org/10.1103/PhysRevC.39.497

@article{446da7d98364480ea78b05aaa542751b,

title = "Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon",

abstract = "For the reactions of 30 MeV/nucleon O16 and S32 with Ag, singles and coincidence measurements have been made for heavy residues, fragments (3z14), and light charged particles (z2). Mass-velocity correlations for the residues and fragment-residue coincidences indicate that increasing residue velocities do correspond to increasing excitation energy. Excitation energies as high as 90\% of those which would result from complete fusion are reached. The spectra of light particles detected in coincidence with residue groups having different average velocities are analyzed with a moving source fit. When recoil effects are properly taken into account, excellent fits to the data are obtained. From the energy spectra and multiplicities of particles emitted from a fusion-like source the initial temperatures of the primary composite nuclei are determined. The results suggest that a plateau temperature near 6.5 MeV is reached above excitation energies of 3 MeV/nucleon. The temperatures are compared to those resulting from various model calculations.",

author = "R. Wada and D. Fabris and K. Hagel and G. Nebbia and Y. Lou and M. Gonin and Natowitz, \{J. B.\} and R. Billerey and B. Cheynis and A. Demeyer and D. Drain and D. Guinet and C. Pastor and L. Vagneron and K. Zaid and J. Alarja and A. Giorni and D. Heuer and C. Morand and B. Viano and C. Mazur and C. Ng and S. Leray and R. Lucas and M. Ribrag and E. Tomasi",

year = "1989",

month = jan,

day = "1",

doi = "10.1103/PhysRevC.39.497",

language = "English",

volume = "39",

pages = "497--515",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

number = "2",

}

Wada, R, Fabris, D, Hagel, K, Nebbia, G, Lou, Y, Gonin, M, Natowitz, JB, Billerey, R, Cheynis, B, Demeyer, A, Drain, D, Guinet, D, Pastor, C, Vagneron, L, Zaid, K, Alarja, J, Giorni, A, Heuer, D, Morand, C, Viano, B, Mazur, C, Ng, C, Leray, S, Lucas, R, Ribrag, M & Tomasi, E 1989, 'Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon', Physical Review C - Nuclear Physics, vol. 39, no. 2, pp. 497-515. https://doi.org/10.1103/PhysRevC.39.497

TY - JOUR

T1 - Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon

AU - Wada, R.

AU - Fabris, D.

AU - Hagel, K.

AU - Nebbia, G.

AU - Lou, Y.

AU - Gonin, M.

AU - Natowitz, J. B.

AU - Billerey, R.

AU - Cheynis, B.

AU - Demeyer, A.

AU - Drain, D.

AU - Guinet, D.

AU - Pastor, C.

AU - Vagneron, L.

AU - Zaid, K.

AU - Alarja, J.

AU - Giorni, A.

AU - Heuer, D.

AU - Morand, C.

AU - Viano, B.

AU - Mazur, C.

AU - Ng, C.

AU - Leray, S.

AU - Lucas, R.

AU - Ribrag, M.

AU - Tomasi, E.

PY - 1989/1/1

Y1 - 1989/1/1

N2 - For the reactions of 30 MeV/nucleon O16 and S32 with Ag, singles and coincidence measurements have been made for heavy residues, fragments (3z14), and light charged particles (z2). Mass-velocity correlations for the residues and fragment-residue coincidences indicate that increasing residue velocities do correspond to increasing excitation energy. Excitation energies as high as 90% of those which would result from complete fusion are reached. The spectra of light particles detected in coincidence with residue groups having different average velocities are analyzed with a moving source fit. When recoil effects are properly taken into account, excellent fits to the data are obtained. From the energy spectra and multiplicities of particles emitted from a fusion-like source the initial temperatures of the primary composite nuclei are determined. The results suggest that a plateau temperature near 6.5 MeV is reached above excitation energies of 3 MeV/nucleon. The temperatures are compared to those resulting from various model calculations.

AB - For the reactions of 30 MeV/nucleon O16 and S32 with Ag, singles and coincidence measurements have been made for heavy residues, fragments (3z14), and light charged particles (z2). Mass-velocity correlations for the residues and fragment-residue coincidences indicate that increasing residue velocities do correspond to increasing excitation energy. Excitation energies as high as 90% of those which would result from complete fusion are reached. The spectra of light particles detected in coincidence with residue groups having different average velocities are analyzed with a moving source fit. When recoil effects are properly taken into account, excellent fits to the data are obtained. From the energy spectra and multiplicities of particles emitted from a fusion-like source the initial temperatures of the primary composite nuclei are determined. The results suggest that a plateau temperature near 6.5 MeV is reached above excitation energies of 3 MeV/nucleon. The temperatures are compared to those resulting from various model calculations.

U2 - 10.1103/PhysRevC.39.497

DO - 10.1103/PhysRevC.39.497

M3 - Article

AN - SCOPUS:0000826780

SN - 0556-2813

VL - 39

SP - 497

EP - 515

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 2

ER -

Temperatures and excitation energies of hot nuclei in the reactions of S32+Ag and O16+Ag at 30 MeV/nucleon

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