Perturbed-angular-correlation studies of 2+ levels of even xenon isotopes

D. M. Gordon; L. S. Eytel; H. De Waard; D. E. Murnick

doi:10.1103/PhysRevC.12.628

Perturbed-angular-correlation studies of 2+ levels of even xenon isotopes

D. M. Gordon, L. S. Eytel, H. De Waard, D. E. Murnick

Rutgers Newark, Physics

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

33 Scopus citations

Abstract

Thin solid xenon targets were prepared by condensing xenon gas on iron at 4.2 K. First 2+ levels of Xe124-132 were Coulomb excited and recoil implanted into the polarized iron foils. B(E2') values and g factors were determined from excitation and perturbed angular correlation data, respectively, and are in reasonable agreement with collective model calculations. A value for the average hyperfine field on xenon implanted into iron under these experimental conditions was determined to be Heff=1.40±0.37 MOe. NUCLEAR STRUCTURE Xe124-132, 2+levels Coulomb excited, 36-42 MeV O16, W(,), deduced B(E2'), g factors, Heff Xe (Fe).

Original language	English (US)
Pages (from-to)	628-636
Number of pages	9
Journal	Physical Review C
Volume	12
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevC.12.628
State	Published - Jan 1 1975

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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title = "Perturbed-angular-correlation studies of 2+ levels of even xenon isotopes",

abstract = "Thin solid xenon targets were prepared by condensing xenon gas on iron at 4.2 K. First 2+ levels of Xe124-132 were Coulomb excited and recoil implanted into the polarized iron foils. B(E2') values and g factors were determined from excitation and perturbed angular correlation data, respectively, and are in reasonable agreement with collective model calculations. A value for the average hyperfine field on xenon implanted into iron under these experimental conditions was determined to be Heff=1.40±0.37 MOe. NUCLEAR STRUCTURE Xe124-132, 2+levels Coulomb excited, 36-42 MeV O16, W(,), deduced B(E2'), g factors, Heff Xe (Fe).",

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year = "1975",

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T1 - Perturbed-angular-correlation studies of 2+ levels of even xenon isotopes

AU - Gordon, D. M.

AU - Eytel, L. S.

AU - De Waard, H.

AU - Murnick, D. E.

PY - 1975/1/1

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N2 - Thin solid xenon targets were prepared by condensing xenon gas on iron at 4.2 K. First 2+ levels of Xe124-132 were Coulomb excited and recoil implanted into the polarized iron foils. B(E2') values and g factors were determined from excitation and perturbed angular correlation data, respectively, and are in reasonable agreement with collective model calculations. A value for the average hyperfine field on xenon implanted into iron under these experimental conditions was determined to be Heff=1.40±0.37 MOe. NUCLEAR STRUCTURE Xe124-132, 2+levels Coulomb excited, 36-42 MeV O16, W(,), deduced B(E2'), g factors, Heff Xe (Fe).

AB - Thin solid xenon targets were prepared by condensing xenon gas on iron at 4.2 K. First 2+ levels of Xe124-132 were Coulomb excited and recoil implanted into the polarized iron foils. B(E2') values and g factors were determined from excitation and perturbed angular correlation data, respectively, and are in reasonable agreement with collective model calculations. A value for the average hyperfine field on xenon implanted into iron under these experimental conditions was determined to be Heff=1.40±0.37 MOe. NUCLEAR STRUCTURE Xe124-132, 2+levels Coulomb excited, 36-42 MeV O16, W(,), deduced B(E2'), g factors, Heff Xe (Fe).

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