Level scheme of 194Ir

M. Balodis; P. Prokofjevs; N. Kramere; L. Simonova; J. Berzinš; T. Krasta; J. Kern; A. Raemy; J. C. Dousse; W. Schwitz; J. A. Cizewski; G. G. Colvin; H. G. Boerner; P. Geltenbort; F. Hoyler; S. A. Kerr; K. Schreckenbach; R. Georgii; T. Von Egidy; J. Klora; H. Lindner; U. Mayerhofer; A. Walter; A. V. Murzin; V. A. Libman; I. A. Kondurov; Yu E. Loginov; P. A. Sushkov; S. Brant; V. Paar; V. Lopac

doi:10.1016/S0375-9474(98)00457-6

Level scheme of ¹⁹⁴Ir

M. Balodis^*
, P. Prokofjevs
, N. Kramere
, L. Simonova
, J. Berzinš
, T. Krasta
, J. Kern
, A. Raemy
, J. C. Dousse
, W. Schwitz
, J. A. Cizewski
, G. G. Colvin
, H. G. Boerner
, P. Geltenbort
, F. Hoyler
, S. A. Kerr
, K. Schreckenbach
, R. Georgii
, T. Von Egidy
, J. Klora

H. Lindner, U. Mayerhofer, A. Walter, A. V. Murzin, V. A. Libman, I. A. Kondurov, Yu E. Loginov, P. A. Sushkov, S. Brant, V. Paar, V. Lopac

^*Šī darba korespondējošais autors

Latvian Academy of Sciences
University of Fribourg
Rutgers - The State University of New Jersey, New Brunswick
Institut Laue-Langevin
Aachen University of Applied Sciences
BP plc
Technical University of Munich
NASU - Institute of Nuclear Research
Petersburg Nuclear Physics Institute (PNPI)
University of Zagreb

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

7 Atsauces (Scopus)

Kopsavilkums

Levels of ¹⁹⁴Ir were studied using neutron capture and (d, p) reaction spectroscopy. A pair spectrometer was used to measure the high-energy γ-ray spectrum from thermal-neutron capture in an enriched ¹⁹³Ir target over the energy range 4640-6100 keV. From the same reaction, low-energy γ-radiation was studied using curved-crystal spectrometers, and conversion electrons were observed with magnetic spectrometers. Prompt and delayed γγ-coincidences were measured using semiconductor and scintillation detectors. Averaged resonance capture measurements were performed with 2 keV and 24 keV neutrons for primary transitions leading to excitation energies from 0 to 580 keV. Using 22 MeV deuterons, the ¹⁹³Ir(d, p) high resolution spectra were observed with a magnetic spectrograph. The deduced nuclear level scheme of ¹⁹⁴Ir includes 38 levels connected by 184 transitions. Unambiguous spins and parities were determined for 25 levels. The rotor-plus-particle model was used for the interpretation of the level scheme assuming a strong mixing for Nilsson configurations having identical parities and K quantum numbers. IBFFM model calculations were performed and the obtained results were compared with the experimental level scheme.

Oriģinālvaloda	Angļu
Lapas (no-līdz)	133-187
Lapu skaits	55
Žurnāls	Nuclear Physics A
Sējums	641
Izdevuma numurs	2
DOIs	https://doi.org/10.1016/S0375-9474(98)00457-6
Publikācijas statuss	Publicēts - 12 okt. 1998
Ārēji publicēts	Jā

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Balodis, M., Prokofjevs, P., Kramere, N., Simonova, L., Berzinš, J., Krasta, T., Kern, J., Raemy, A., Dousse, J. C., Schwitz, W., Cizewski, J. A., Colvin, G. G., Boerner, H. G., Geltenbort, P., Hoyler, F., Kerr, S. A., Schreckenbach, K., Georgii, R., Von Egidy, T., ... Lopac, V. (1998). Level scheme of ¹⁹⁴Ir. Nuclear Physics A, 641(2), 133-187. https://doi.org/10.1016/S0375-9474(98)00457-6

@article{d52ade791d0b48ee8dee7bce704256d5,

title = "Level scheme of 194Ir",

abstract = "Levels of 194Ir were studied using neutron capture and (d, p) reaction spectroscopy. A pair spectrometer was used to measure the high-energy γ-ray spectrum from thermal-neutron capture in an enriched 193Ir target over the energy range 4640-6100 keV. From the same reaction, low-energy γ-radiation was studied using curved-crystal spectrometers, and conversion electrons were observed with magnetic spectrometers. Prompt and delayed γγ-coincidences were measured using semiconductor and scintillation detectors. Averaged resonance capture measurements were performed with 2 keV and 24 keV neutrons for primary transitions leading to excitation energies from 0 to 580 keV. Using 22 MeV deuterons, the 193Ir(d, p) high resolution spectra were observed with a magnetic spectrograph. The deduced nuclear level scheme of 194Ir includes 38 levels connected by 184 transitions. Unambiguous spins and parities were determined for 25 levels. The rotor-plus-particle model was used for the interpretation of the level scheme assuming a strong mixing for Nilsson configurations having identical parities and K quantum numbers. IBFFM model calculations were performed and the obtained results were compared with the experimental level scheme.",

keywords = "Ir(n, γ), E = 2 keV, 24 keV, Measured E, I, E(ce), I(ce), γγ-coincidences, Nuclear reaction Ir(n, γ), E = thermal",

author = "M. Balodis and P. Prokofjevs and N. Kramere and L. Simonova and J. Berzin{\v s} and T. Krasta and J. Kern and A. Raemy and Dousse, \{J. C.\} and W. Schwitz and Cizewski, \{J. A.\} and Colvin, \{G. G.\} and Boerner, \{H. G.\} and P. Geltenbort and F. Hoyler and Kerr, \{S. A.\} and K. Schreckenbach and R. Georgii and \{Von Egidy\}, T. and J. Klora and H. Lindner and U. Mayerhofer and A. Walter and Murzin, \{A. V.\} and Libman, \{V. A.\} and Kondurov, \{I. A.\} and Loginov, \{Yu E.\} and Sushkov, \{P. A.\} and S. Brant and V. Paar and V. Lopac",

year = "1998",

month = oct,

day = "12",

doi = "10.1016/S0375-9474(98)00457-6",

language = "English",

volume = "641",

pages = "133--187",

journal = "Nuclear Physics A",

issn = "0375-9474",

publisher = "Elsevier B.V.",

number = "2",

}

Balodis, M, Prokofjevs, P, Kramere, N, Simonova, L, Berzinš, J, Krasta, T, Kern, J, Raemy, A, Dousse, JC, Schwitz, W, Cizewski, JA, Colvin, GG, Boerner, HG, Geltenbort, P, Hoyler, F, Kerr, SA, Schreckenbach, K, Georgii, R, Von Egidy, T, Klora, J, Lindner, H, Mayerhofer, U, Walter, A, Murzin, AV, Libman, VA, Kondurov, IA, Loginov, YE, Sushkov, PA, Brant, S, Paar, V & Lopac, V 1998, 'Level scheme of ¹⁹⁴Ir', Nuclear Physics A, sēj. 641, Nr. 2, lpp. 133-187. https://doi.org/10.1016/S0375-9474(98)00457-6

TY - JOUR

T1 - Level scheme of 194Ir

AU - Balodis, M.

AU - Prokofjevs, P.

AU - Kramere, N.

AU - Simonova, L.

AU - Berzinš, J.

AU - Krasta, T.

AU - Kern, J.

AU - Raemy, A.

AU - Dousse, J. C.

AU - Schwitz, W.

AU - Cizewski, J. A.

AU - Colvin, G. G.

AU - Boerner, H. G.

AU - Geltenbort, P.

AU - Hoyler, F.

AU - Kerr, S. A.

AU - Schreckenbach, K.

AU - Georgii, R.

AU - Von Egidy, T.

AU - Klora, J.

AU - Lindner, H.

AU - Mayerhofer, U.

AU - Walter, A.

AU - Murzin, A. V.

AU - Libman, V. A.

AU - Kondurov, I. A.

AU - Loginov, Yu E.

AU - Sushkov, P. A.

AU - Brant, S.

AU - Paar, V.

AU - Lopac, V.

PY - 1998/10/12

Y1 - 1998/10/12

N2 - Levels of 194Ir were studied using neutron capture and (d, p) reaction spectroscopy. A pair spectrometer was used to measure the high-energy γ-ray spectrum from thermal-neutron capture in an enriched 193Ir target over the energy range 4640-6100 keV. From the same reaction, low-energy γ-radiation was studied using curved-crystal spectrometers, and conversion electrons were observed with magnetic spectrometers. Prompt and delayed γγ-coincidences were measured using semiconductor and scintillation detectors. Averaged resonance capture measurements were performed with 2 keV and 24 keV neutrons for primary transitions leading to excitation energies from 0 to 580 keV. Using 22 MeV deuterons, the 193Ir(d, p) high resolution spectra were observed with a magnetic spectrograph. The deduced nuclear level scheme of 194Ir includes 38 levels connected by 184 transitions. Unambiguous spins and parities were determined for 25 levels. The rotor-plus-particle model was used for the interpretation of the level scheme assuming a strong mixing for Nilsson configurations having identical parities and K quantum numbers. IBFFM model calculations were performed and the obtained results were compared with the experimental level scheme.

AB - Levels of 194Ir were studied using neutron capture and (d, p) reaction spectroscopy. A pair spectrometer was used to measure the high-energy γ-ray spectrum from thermal-neutron capture in an enriched 193Ir target over the energy range 4640-6100 keV. From the same reaction, low-energy γ-radiation was studied using curved-crystal spectrometers, and conversion electrons were observed with magnetic spectrometers. Prompt and delayed γγ-coincidences were measured using semiconductor and scintillation detectors. Averaged resonance capture measurements were performed with 2 keV and 24 keV neutrons for primary transitions leading to excitation energies from 0 to 580 keV. Using 22 MeV deuterons, the 193Ir(d, p) high resolution spectra were observed with a magnetic spectrograph. The deduced nuclear level scheme of 194Ir includes 38 levels connected by 184 transitions. Unambiguous spins and parities were determined for 25 levels. The rotor-plus-particle model was used for the interpretation of the level scheme assuming a strong mixing for Nilsson configurations having identical parities and K quantum numbers. IBFFM model calculations were performed and the obtained results were compared with the experimental level scheme.

KW - Ir(n, γ), E = 2 keV, 24 keV

KW - Measured E, I, E(ce), I(ce), γγ-coincidences

KW - Nuclear reaction Ir(n, γ), E = thermal

UR - https://www.scopus.com/pages/publications/0032511646

U2 - 10.1016/S0375-9474(98)00457-6

DO - 10.1016/S0375-9474(98)00457-6

M3 - Article

AN - SCOPUS:0032511646

SN - 0375-9474

VL - 641

SP - 133

EP - 187

JO - Nuclear Physics A

JF - Nuclear Physics A

IS - 2

ER -