G. K. Pang scite author profile

G. K. Pang

4Publications

219Citation Statements Received

124Citation Statements Given

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Affiliations

Lawrence Berkeley National Laboratory, Michigan State University, National Superconducting Cyclotron Laboratory

Publications

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Ca48+Bk249Fusion Reaction Leading to Element
Khuyagbaatar¹,
Yakushev²,
Düllmann³
et al. 2014
Phys. Rev. Lett.

239

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The superheavy element with atomic number Z=117 was produced as an evaporation residue in the (48)Ca+(249)Bk fusion reaction at the gas-filled recoil separator TASCA at GSI Darmstadt, Germany. The radioactive decay of evaporation residues and their α-decay products was studied using a detection setup that allowed measuring decays of single atomic nuclei with half-lives between sub-μs and a few days. Two decay chains comprising seven α decays and a spontaneous fission each were identified and are assigned to the isotope (294)117 and its decay products. A hitherto unknown α-decay branch in (270)Db (Z = 105) was observed, which populated the new isotope (266)Lr (Z = 103). The identification of the long-lived (T(1/2) = 1.0(-0.4)(+1.9) h) α-emitter (270)Db marks an important step towards the observation of even more long-lived nuclei of superheavy elements located on an "island of stability."

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Erratum: Precision mass measurements of rare isotopes nearN=Z=33produced by fast beam fragmentation [Phys. Rev. C75, 055801 (2007)]

Schury¹,

Bachelet²,

Block³

et al. 2009

Phys. Rev. C

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rpProcess and Masses ofN≈Z≈34Nuclides

et al. 2009

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High-precision Penning-trap mass measurements of the N approximately Z approximately 34 nuclides 68Se, 70Se, (70m)Br, and 71Br were performed, reaching experimental uncertainties of 0.5-15 keV. The new and improved mass data together with theoretical Coulomb displacement energies were used as input for rp process network calculations. An increase in the effective lifetime of the waiting point nucleus 68Se was found, and more precise information was obtained on the luminosity during a type I x-ray burst along with the final elemental abundances after the burst.

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Discovery of a Nuclear Isomer inFe65with PenningTrap Mass Spectrometry

et al. 2008

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A new long-lived isomeric state in (65)Fe has been discovered with Penning trap mass spectrometry and high-precision mass measurements of the neutron-rich isotopes (63-65)Fe and (64-66)Co have been performed with the Low-Energy Beam and Ion Trap Facility at the NSCL. For the new isomer in (65)Fe an excitation energy of 402(5) keV has been determined from the measured mass difference between the isomeric and ground states. The mass uncertainties of all isotopes have been reduced by a factor of 10-100 compared to previous results. In the case of (64)Co the previous mass value was found to deviate by about 5 standard deviations from the new measurement.

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G. K. Pang

Ca48+Bk249Fusion Reaction Leading to Element
Khuyagbaatar¹,
Yakushev²,
Düllmann³
et al. 2014
Phys. Rev. Lett.

Erratum: Precision mass measurements of rare isotopes nearN=Z=33produced by fast beam fragmentation [Phys. Rev. C75, 055801 (2007)]

rpProcess and Masses ofN≈Z≈34Nuclides

Discovery of a Nuclear Isomer inFe65with PenningTrap Mass Spectrometry

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G. K. Pang

Ca48+Bk249Fusion Reaction Leading to ElementKhuyagbaatar1, Yakushev2, Düllmann3 et al. 2014Phys. Rev. Lett.

Erratum: Precision mass measurements of rare isotopes nearN=Z=33produced by fast beam fragmentation [Phys. Rev. C75, 055801 (2007)]

rpProcess and Masses ofN≈Z≈34Nuclides

Discovery of a Nuclear Isomer inFe65with PenningTrap Mass Spectrometry

Contact Info

Product

Resources

About

Ca48+Bk249Fusion Reaction Leading to Element
Khuyagbaatar¹,
Yakushev²,
Düllmann³
et al. 2014
Phys. Rev. Lett.