Inhomogeneous and intrinsic damping of giant dipole resonance in hot rotating nuclei with<i>A</i>∼ 150

Chakrabarty, D. R.; Datar, V. M.; Kumar, Suresh; Mirgule, E. T.; Mitra, A.; Nanal, V.; Pillay, R. G.; Rout, P. C.

doi:10.1088/0954-3899/37/5/055105

Cited by 19 publications

(23 citation statements)

References 40 publications

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“…The experimental widths are consistent with both models. In the case of Kusnezov parametrization, a few authors have reported a change in Γ 0 value at different excitation energies [13], whereas same value of Γ 0 is consistent for 144 Sm at different excitation energies. …”

Section: Resultsmentioning

confidence: 85%

Spin gated GDR widths at moderate temperatures

Mukul

Sugathan

Gehlot

et al. 2015

EPJ Web of Conferences

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Abstract.We present the evolution of giant dipole resonance (GDR) width as a function of angular momentum in the compound nucleus 144 Sm in the temperature range of 1.5-2.0 MeV. The high energy γ rays emitted from the decay of excited 144 Sm were measured using large NaI detector in coincidence with 4π sum spin spectrometer. GDR widths were found to comply with thermal shape fluctuation model in this temperature range over a wide range of spin. Experimental widths tend to increase rapidly at high angular momentum values.

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Section: Resultsmentioning

confidence: 85%

Spin gated GDR widths at moderate temperatures

Mukul

Sugathan

Gehlot

et al. 2015

EPJ Web of Conferences

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“…The value was ascertained from our earlier measurements with monoenergetic high-energy γ rays produced in the 27 Al(p,γ ) and 11 B(p,γ ) reactions as discussed in Ref. [8]. The gain variation of the detectors was periodically monitored with the radioactive sources and was taken into account in the data analysis by dividing the experimental runs into different groups.…”

Section: Methodsmentioning

confidence: 99%

“…In this experiment a low-energy component at ∼10. 8 MeV was seen in the GDR strength function in addition to two other components at ∼18 and 26 MeV. The lowest component was interpreted to be due to the vibration along the most elongated axis of the highly deformed nuclei and further shifted downward due to the Coriolis splitting.…”

Section: Introductionmentioning

confidence: 92%

Exclusive giant dipole resonance measurement on the Jacobi transition in the19F+27Al system

et al. 2012

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Evaporation-residue-gated high-energy gamma-ray spectra were measured in the 19 F + 27 Al reaction at two beam energies of ∼75 and 125 MeV. The compound nuclear angular momenta populated at the higher energy should extend beyond the critical value for the Jacobi shape transition, while those at the lower energy should be mostly restricted below the critical value. A sharp low-energy (at ∼10 MeV) component has been observed in the gamma-ray strength function superimposed on a broad distribution. At the higher beam energy, the component becomes more prominent at higher angular momentum, whereas an opposite behavior is witnessed at the lower beam energy. The implication of these observations in connection with the occurrence of the Jacobi shape transition is discussed.

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“…The giant dipole resonance (GDR), an archetypical example of collective vibrational mode built on excited nuclear states, provides us the insight of exotic nuclear shapes and structure [1][2][3]. Ardent experimental and theoretical interests [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22] can be seen over the years in studying the properties of the GDR built on excited states in nuclei as this collective mode is strongly coupled to nuclear damping and shape degrees of freedom. The strength (S GDR ), centroid energy (E GDR ) and width (Γ GDR ) are the parameters that describe a GDR strength function.…”

Section: Introductionmentioning

confidence: 99%

Examination of level density prescriptions for the interpretation of high-energyγ-ray spectra

Bhattacharya¹,

Pandit

Dey

et al. 2014

Phys. Rev. C

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High energy γ-ray spectra measured by our group involving the compound nuclei (CN) 63 Cu at excitation energy (E * ) ∼ 36 MeV with average angular momentum (J) = 12 -17h, 97 Tc at E * ∼ 29 -50 MeV with J = 12 -14h, 113 Sb at E * = 109 MeV and 121 MeV with J = 49 -59h and 201 Tl at E * = 39.5, 47.5 MeV with J = 18 -24h have been analyzed utilizing the level density prescriptions of (i)Ignatyuk, Smirenkin and Tishin (IST), (ii)Budtz-Jorgensen and Knitter (BJK), and (iii) Kataria, Ramamurthy and Kapoor (KRK). These three prescriptions have been tested for correct statistical model description of high energy γ-rays in the light of extracting the giant dipole resonance (GDR) parameters at low excitation energy and spin where shell effects might play an important role as well as at high excitation energy where shell effects have melted. Interestingly, only the IST level density prescription could explain the high energy γ-ray spectra with reasonable GDR parameters for all the four nuclei.

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Inhomogeneous and intrinsic damping of giant dipole resonance in hot rotating nuclei withA∼ 150

Cited by 19 publications

References 40 publications

Spin gated GDR widths at moderate temperatures

Spin gated GDR widths at moderate temperatures

Exclusive giant dipole resonance measurement on the Jacobi transition in the19F+27Al system

Examination of level density prescriptions for the interpretation of high-energyγ-ray spectra

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