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Analyses of Hypernuclei Produced Via Fission and Evaporation

Year 2021, Volume: 47 Issue: 1, 102 - 109, 30.04.2021
https://doi.org/10.35238/sufefd.896697

Abstract

In heavy-ion reactions, nuclei and hypernuclei yields can be emitted from target/projectile redisuals in peripheral collisions. The evaporation and fission yields are investigated at 0.25-2.5 MeV/nucleon excitation energy intervals for source nuclei 235U, 235_Lambda_U, 235_2Lambda_U, 235_3Lambda_U, 235_4Lambda_U, 168Ho, 168_Lambda_Ho, 168_2Lambda_Ho, 168_3Lambda_Ho ve 168_4Lambda_Ho. We have reproduced mass distributions via computer codes by using hyper-SMM model which is based on the statistical multifragmentation model for hypernuclei. Our results can be used for the analyses of the future experiments at FAIR(GSI) and NICA(Dubna).

Supporting Institution

TÜBİTAK

Project Number

118F111

Thanks

Many helpful discussions with AS Botvina, R Ogul and A Kaya are gratefully acknowledged. This study is prepared from Master Thesis of S.N. Koyuncu at Graduate School of Natural Science of Selcuk University, supported by Scientific and Technological Research Council of Turkey (TUBITAK), under Project No. 118F111, and has been performed in the framework of COST Action CA15213 THOR.

References

  • Bondorf JP, Botvina AS, Iljinov AS, Mishustin IN, and Sneppen K (1995). Statistical multifragmentation of nuclei. Phys. Rep. 257: 133-221.
  • Botvina AS et al. (1995). Multifragmentation of spectators in relativistic heavy-ion reactions. Nucl. Phys. A 584: 737.
  • Botvina AS, Buyukcizmeci N, Ergun A, Ogul R, Bleicher M, Pochodzalla J (2016). Formation of hypernuclei in evaporation and fission processes. Phys. Rev. C. 94: 054615.
  • Botvina AS, Iljinov AS, Mishustin IN, Bondorf J, Donangelo R, Sneppen K (1987). Statistical simulation of the break-up of highly excited nuclei. Nucl. Phys. A 475(4): 663-686.
  • Botvina, A.S. and Pochodzalla J (2007). Production of hypernuclei in multifragmentation of nuclear spectator matter”. Phys. Rev. C 76: 024909.
  • Buyukcizmeci N, Botvina AS, Ergun A, Ogul R, Bleicher M (2018). Statistical production and binding energy of hypernuclei. Phys. Rev. C. 98: 064603.
  • Buyukcizmeci N, Botvina AS, Ogul R, Ergun A, Bleicher M (2019). Production of ΛΛ-hypernuclei and evaluation of their binding energies via the double yield ratio. Eur. Phys. J. A 55(2): 1.
  • Buyukcizmeci N, Botvina AS, Pochodzalla J and Bleicher M (2013). Mechanisms for the production of hypernuclei beyond the neutron and proton drip lines. Phys. Rev. C 88: 014611.
  • Buyukcizmeci N, Ogul R, and Botvina AS (2005). Isospin and symmetry energy effects on nuclear fragment production in liquid-gas-type phase transition region. Eur. Phys. J. A 25: 57.
  • Buyukcizmeci N, Ogul R, Botvina AS, Bleicher M (2020). On the survey of nuclei and hypernuclei in multifragmentation. Phys. Scr. 95: 075311. Hashimoto O and Tamura H (2006). Spectroscopy of hypernuclei. Prog. Part. Nucl. Phys. 57: 564.
  • Eren N, Buyukcizmeci N, Ogul (2007). Mass distributions of nuclear disintegration from fission to evaporation. Phys. Scr. 76: 657.
  • Eren N, Buyukcizmeci N, Ogul R, Botvina AS 8 (2013). Mass distribution in the disintegration of heavy nuclei. Eur. Phys. J. A 49: 48.
  • Imal H, Ergun A, Buyukcizmeci N, Ogul R, Botvina AS, and Trautmann W (2015). Theoretical study of projectile fragmentation in the 112Sn+112Sn and 124Sn+124Sn reactions at 1 GeV/nucleon. Phys. Rev. C 91: 034605.
  • Karnaukhov VA et al. (2008). Critical temperature for the nuclear liquid-gas phase transition (from multifragmentation and fission). Physics of Atomic Nuclei 71: 2067.
  • Kreutz P et al., (1993). Charge correlations as a probe of nuclear disassembly. Nucl. Phys. A 556: 672. Li B -A, DeAngelis AR, and Gross DHE (1993). Statistical model analysis of ALADIN multifragmentation data. Phys. Lett. B 303: 225.
  • Ogul R et al. (2011). Isospin-dependent multifragmentation of relativistic projectiles. Phys. Rev. C 83: 024608.
  • Pienkowski L, Kwiatkowski K, Lefort T, Hsi W -c, Beaulieu L, Viola VE et al. (2002). Breakup time scale studied in the 8 GeV/cπ−+197Au reaction. Phys. Rev. C 65: 064606.
  • Schaffner J, Dover CB, Gal A, Greiner C and Stoecker H (1993). Strange hadronic matter. Phys. Rev. Lett., 71: 1328.
  • Scharenberg RP, Srivastava BK, Albergo S, Bieser F, Brady FP, Caccia Z et al., (2001). Comparison of 1AGeV 197Au+C data with thermodynamics: The nature of the phase transition in nuclear multifragmentation. Phys. Rev. C 64: 054602.
  • Special issue on Progress in Strangeness Nuclear Physics (2012). Edt. Gal A, Hashimoto O and Pochodzalla J, Nucl. Phys. A 881: 1-338.
  • Viola VE et al. (2001). Signals for the transition from liguid to gas in hot nuclei. Nucl. Phys. A 681: 267c.
  • Xi H et al. (1997). Breakup temperature of target spectators in 197Au + 197Au collisions at E/A=1000 MeV. Z. Phys. A 359: 97–67.

Fisyon ve Buharlaşma ile Üretilen Hiperçekirdeklerin Analizi

Year 2021, Volume: 47 Issue: 1, 102 - 109, 30.04.2021
https://doi.org/10.35238/sufefd.896697

Abstract

Ağır iyon reaksiyonlarında çekirdekler ve hiperçekirdekler yanal çarpışmalarda hedef/mermi çekirdek artıklarından saçılabilir. 235U, 235_Lambda_U, 235_2Lambda_U, 235_3Lambda_U, 235_4Lambda_U, 168Ho, 168_Lambda_Ho, 168_2Lambda_Ho, 168_3Lambda_Ho ve 168_4Lambda_Ho kaynak çekirdekleri için 0.25-2.5 MeV/nükleon uyarma enerji aralıklarında buharlaşma ve fisyon ürünleri araştırılmıştır. Hiperçekirdekler için istatistiksel çok katlı parçalanma modeli temelinde hiper-SMM modelini kullanarak bilgisayar kodlarıyla kütle dağılımlarını elde ettik. Sonuçlarımız FAIR (GSI) ve NICA (Dubna)’daki gelecek deneylerin analizlerinde kullanılabilecektir.

Project Number

118F111

References

  • Bondorf JP, Botvina AS, Iljinov AS, Mishustin IN, and Sneppen K (1995). Statistical multifragmentation of nuclei. Phys. Rep. 257: 133-221.
  • Botvina AS et al. (1995). Multifragmentation of spectators in relativistic heavy-ion reactions. Nucl. Phys. A 584: 737.
  • Botvina AS, Buyukcizmeci N, Ergun A, Ogul R, Bleicher M, Pochodzalla J (2016). Formation of hypernuclei in evaporation and fission processes. Phys. Rev. C. 94: 054615.
  • Botvina AS, Iljinov AS, Mishustin IN, Bondorf J, Donangelo R, Sneppen K (1987). Statistical simulation of the break-up of highly excited nuclei. Nucl. Phys. A 475(4): 663-686.
  • Botvina, A.S. and Pochodzalla J (2007). Production of hypernuclei in multifragmentation of nuclear spectator matter”. Phys. Rev. C 76: 024909.
  • Buyukcizmeci N, Botvina AS, Ergun A, Ogul R, Bleicher M (2018). Statistical production and binding energy of hypernuclei. Phys. Rev. C. 98: 064603.
  • Buyukcizmeci N, Botvina AS, Ogul R, Ergun A, Bleicher M (2019). Production of ΛΛ-hypernuclei and evaluation of their binding energies via the double yield ratio. Eur. Phys. J. A 55(2): 1.
  • Buyukcizmeci N, Botvina AS, Pochodzalla J and Bleicher M (2013). Mechanisms for the production of hypernuclei beyond the neutron and proton drip lines. Phys. Rev. C 88: 014611.
  • Buyukcizmeci N, Ogul R, and Botvina AS (2005). Isospin and symmetry energy effects on nuclear fragment production in liquid-gas-type phase transition region. Eur. Phys. J. A 25: 57.
  • Buyukcizmeci N, Ogul R, Botvina AS, Bleicher M (2020). On the survey of nuclei and hypernuclei in multifragmentation. Phys. Scr. 95: 075311. Hashimoto O and Tamura H (2006). Spectroscopy of hypernuclei. Prog. Part. Nucl. Phys. 57: 564.
  • Eren N, Buyukcizmeci N, Ogul (2007). Mass distributions of nuclear disintegration from fission to evaporation. Phys. Scr. 76: 657.
  • Eren N, Buyukcizmeci N, Ogul R, Botvina AS 8 (2013). Mass distribution in the disintegration of heavy nuclei. Eur. Phys. J. A 49: 48.
  • Imal H, Ergun A, Buyukcizmeci N, Ogul R, Botvina AS, and Trautmann W (2015). Theoretical study of projectile fragmentation in the 112Sn+112Sn and 124Sn+124Sn reactions at 1 GeV/nucleon. Phys. Rev. C 91: 034605.
  • Karnaukhov VA et al. (2008). Critical temperature for the nuclear liquid-gas phase transition (from multifragmentation and fission). Physics of Atomic Nuclei 71: 2067.
  • Kreutz P et al., (1993). Charge correlations as a probe of nuclear disassembly. Nucl. Phys. A 556: 672. Li B -A, DeAngelis AR, and Gross DHE (1993). Statistical model analysis of ALADIN multifragmentation data. Phys. Lett. B 303: 225.
  • Ogul R et al. (2011). Isospin-dependent multifragmentation of relativistic projectiles. Phys. Rev. C 83: 024608.
  • Pienkowski L, Kwiatkowski K, Lefort T, Hsi W -c, Beaulieu L, Viola VE et al. (2002). Breakup time scale studied in the 8 GeV/cπ−+197Au reaction. Phys. Rev. C 65: 064606.
  • Schaffner J, Dover CB, Gal A, Greiner C and Stoecker H (1993). Strange hadronic matter. Phys. Rev. Lett., 71: 1328.
  • Scharenberg RP, Srivastava BK, Albergo S, Bieser F, Brady FP, Caccia Z et al., (2001). Comparison of 1AGeV 197Au+C data with thermodynamics: The nature of the phase transition in nuclear multifragmentation. Phys. Rev. C 64: 054602.
  • Special issue on Progress in Strangeness Nuclear Physics (2012). Edt. Gal A, Hashimoto O and Pochodzalla J, Nucl. Phys. A 881: 1-338.
  • Viola VE et al. (2001). Signals for the transition from liguid to gas in hot nuclei. Nucl. Phys. A 681: 267c.
  • Xi H et al. (1997). Breakup temperature of target spectators in 197Au + 197Au collisions at E/A=1000 MeV. Z. Phys. A 359: 97–67.
There are 22 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Sıddıka Nihal Koyuncu 0000-0002-6452-3332

Nihal Büyükçizmeci 0000-0002-6030-9574

Project Number 118F111
Publication Date April 30, 2021
Submission Date March 15, 2021
Published in Issue Year 2021 Volume: 47 Issue: 1

Cite

APA Koyuncu, S. N., & Büyükçizmeci, N. (2021). Analyses of Hypernuclei Produced Via Fission and Evaporation. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, 47(1), 102-109. https://doi.org/10.35238/sufefd.896697
AMA Koyuncu SN, Büyükçizmeci N. Analyses of Hypernuclei Produced Via Fission and Evaporation. sufefd. April 2021;47(1):102-109. doi:10.35238/sufefd.896697
Chicago Koyuncu, Sıddıka Nihal, and Nihal Büyükçizmeci. “Analyses of Hypernuclei Produced Via Fission and Evaporation”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 47, no. 1 (April 2021): 102-9. https://doi.org/10.35238/sufefd.896697.
EndNote Koyuncu SN, Büyükçizmeci N (April 1, 2021) Analyses of Hypernuclei Produced Via Fission and Evaporation. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 47 1 102–109.
IEEE S. N. Koyuncu and N. Büyükçizmeci, “Analyses of Hypernuclei Produced Via Fission and Evaporation”, sufefd, vol. 47, no. 1, pp. 102–109, 2021, doi: 10.35238/sufefd.896697.
ISNAD Koyuncu, Sıddıka Nihal - Büyükçizmeci, Nihal. “Analyses of Hypernuclei Produced Via Fission and Evaporation”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 47/1 (April 2021), 102-109. https://doi.org/10.35238/sufefd.896697.
JAMA Koyuncu SN, Büyükçizmeci N. Analyses of Hypernuclei Produced Via Fission and Evaporation. sufefd. 2021;47:102–109.
MLA Koyuncu, Sıddıka Nihal and Nihal Büyükçizmeci. “Analyses of Hypernuclei Produced Via Fission and Evaporation”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, vol. 47, no. 1, 2021, pp. 102-9, doi:10.35238/sufefd.896697.
Vancouver Koyuncu SN, Büyükçizmeci N. Analyses of Hypernuclei Produced Via Fission and Evaporation. sufefd. 2021;47(1):102-9.

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