Диссертация (1149404), страница 20
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Gabrielse G. Relaxation calculation of the electrostatic properties of compensated Penningtraps with hyperbolic electrodes / G. Gabrielse // Phys. Rev. A. 1983. Vol. 27. P. 2277.70. Gabrielse G. Cylindrical Penning traps with orthogonalized anharmonicity compensation /G. Gabrielse, F. C. MacKintosh // Int.
J. Mass Spectrom. 1984. Vol. 57. P. 1.71. The accuracy of heavy-ion mass measurements using time of flight-ion cyclotron resonancein a Penning trap / G. Bollen [et al.] // Journal of Applied Physics. 1990. Vol. 68.P. 4355.72. Ketter J. G. Theoretical treatment of miscellaneous frequency-shifts in Penning trapswith classical perturbation theory: PhD thesis. University of Heidelberg, Germany, 2015.73.
Höcker M. J. Precision Mass Measurements at THe-Trap and the FSU trap: PhD thesis.University of Heidelberg, Germany, 2016.74. Quadrupole excitation of stored ion motion at the true cyclotron frequency / M. König[et al.] // International Journal of Mass Spectrometry and Ion Processes. 1995. Vol. 142.P. 95.75. A phase-imaging technique for cyclotron-frequency measurements / S.
Eliseev [et al.] //Applied Physics B. 2014. Vol. 114. P. 107.76. Direct Measurement of the Mass Difference of 163 Ho and 163 Dy Solves the -Value Puzzlefor the Neutrino Mass Determination / S. Eliseev [et al.] // Phys. Rev. Lett. 2015.Vol. 115. P. 062501.77. Observing a single hydrogen-like ion in a Penning trap at T = 4 K / M. Diederich[et al.] // Hyperfine Interactions.
1998. Vol. 115. P. 185.78. Improved limit on the directly measured antiproton lifetime / S. Sellner [et al.] // NewJournal of Physics. 2017. Vol. 19. P. 083023.79. Köhler F. T. Bound-electron g-factor measurements for the determination of the electronmass and isotope shifts in highly charged ions: PhD thesis. University of Heidelberg,Germany, 2015.80.
Roux C. E. High-resolution mass spectrometry: the trap design and detection system ofpentatrap and new Q-values for neutrino studies: PhD thesis. University of Heidelberg,Germany, 2012.81. First Penning-Trap Mass Measurement of the Exotic Halo Nucleus[et al.] // Phys. Rev. Lett.
2008. Vol. 101. P. 202501.11Li / M. Smith8782. Direct mass measurements above uranium bridge the gap to the island of stability /M. Block [et al.] // Nature. 2010. Vol. 463. P. 785.83. Penning trap mass measurements on nobelium isotopes / M. Dworschak [et al.] // Phys.Rev.
C. 2010. Vol. 81. P. 064312.84. Moller P. Stability of heavy and superheavy elements / P. Moller, J. R. Nix // Journal ofPhysics G: Nuclear and Particle Physics. 1994. Vol. 20. P. 1681.85. Shell structure of superheavy nuclei in self-consistent mean-field models / M. Bender[et al.] // Phys. Rev. C. 1999.
Vol. 60. P. 034304.86. Mass measurements of neutron-deficient radionuclides near the end-point of the rp-processwith SHIPTRAP / A. Martın [et al.] // The European Physical Journal A. 2007. Vol. 34.P. 341.87. Mass measurements in the vicinity of the rp-process and the ν-process paths with thePenning trap facilities JYFLTRAP and SHIPTRAP / C. Weber [et al.] // Phys. Rev.
C.2008. Vol. 78. P. 054310.88. First Penning Trap Mass Measurements beyond the Proton Drip Line / C. Rauth[et al.] // Phys. Rev. Lett. 2008. Vol. 100. P. 012501.89. values for neutrinoless double-electron capture in[et al.] // Phys. Rev. C. 2011. Vol. 83. P. 038501.96Ru,162Er and168Yb / S. Eliseev90. Multiple-resonance phenomenon in neutrinoless double-electron capture / S. Eliseev[et al.] // Phys. Rev.
C. 2011. Vol. 84. P. 012501.91. Probing the nuclide 180 W for neutrinoless double-electron capture exploration / C. Droese[et al.] // Nuclear Physics A. 2012. Vol. 875. P. 1.92. Hofmann S. The discovery of the heaviest elements / S. Hofmann, G. Münzenberg // Rev.Mod. Phys. 2000. Vol. 72, issue 3. P. 733.93. The ion-catcher device for SHIPTRAP / J. Neumayr [et al.] // Nuclear Instruments andMethods in Physics Research Section B: Beam Interactions with Materials and Atoms.2006. Vol. 244. P. 489.94. Anderson P.
W. Theory of Flux Creep in Hard Superconductors / P. W. Anderson //Phys. Rev. Lett. 1962. Vol. 9. P. 309.95. Investigation of the magnetic field fluctuation and implementation of a temperature andpressure stabilization at SHIPTRAP / C. Droese [et al.] // Nuclear Instruments andMethods in Physics Research Section A: Accelerators, Spectrometers, Detectors andAssociated Equipment. 2011. Vol. 632. P. 157.96. A phase-imaging technique for cyclotron-frequency measurements / S. Eliseev [et al.] //Applied Physics B: Lasers and Optics. 2014.
Vol. 114. P. 107.97. The ISOLDE facility / R. Catherall [et al.] // Journal of Physics G: Nuclear and ParticlePhysics. 2017. Vol. 44. P. 094002.8898. The new CERN-ISOLDE on-line mass-separator facility at the PS-Booster / E. Kugler[et al.] // Nuclear Instruments and Methods in Physics Research Section B: BeamInteractions with Materials and Atoms. 1992. Vol. 70. P. 41.99. New production systems at ISOLDE / E. Hagebo [et al.] // Nuclear Instruments andMethods in Physics Research Section B: Beam Interactions with Materials and Atoms.1992.
Vol. 70. P. 165.100. Köster U. Resonance ionization laser ion sources / U. Köster // Nuclear Physics A. 2002.Vol. 701. P. 441.101. ISOLTRAP’s multi-reflection time-of-flight mass separator/spectrometer / R. N. Wolf[et al.] // International Journal of Mass Spectrometry. 2013. Vol.
349/350. P. 123.102. A linear radiofrequency ion trap for accumulation, bunching, and emittance improvementof radioactive ion beams / H. F. [et al.] // Nuclear Instruments and Methods in PhysicsResearch Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.2001. Vol. 469.
P. 254.103. Yazidjian C. A new detector setup for ISOLTRAP and test of the isobaric multiplet massequation: PhD thesis. Université de Caen, France, 2006.104. Recent Developments at the High-Precision Mass Spectrometer PENTATRAP /R. Schüssler [et al.] // Proceedings of the 12th International Conference on Low EnergyAntiproton Physics (LEAP2016).105. Evolution of nuclear ground-state properties of neutron-deficient isotopes around = 82from precision mass measurements / C. Böhm [et al.] // Phys. Rev. C.
2014. Vol. 90.P. 044307.106. From direct to absolute mass measurements: A study of the accuracy of ISOLTRAP /A. Kellerbauer [et al.] // The European Physical Journal D - Atomic, Molecular, Opticaland Plasma Physics. 2003. Vol. 22. P. 53.107. Moszkowski S. A. A rapid method of calculating (ft) values for β-transitions /S. A. Moszkowski // Phys. Rev.
1951. Vol. 82, issue 1. P. 35.108. New limits on naturally occurring electron capture ofPhys. Rev. C. 2003. Vol. 67. P. 014323.123Te / A. Alessandrello [et al.] //109. Audi G. The Ame2003 atomic mass evaluation: (II). Tables, graphs and references /G. Audi, A.
H. Wapstra, C. Thibault // Nuclear Physics A. 2003. Vol. 729. P. 337.110. Takahashi K. Beta-decay rates of highly ionized heavy atoms in stellar interiors /K. Takahashi, K. Yokoi // Atomic Data and Nuclear Data Tables. 1987. Vol. 36. P. 375.111. Systematic calculation of total atomic energies of ground state configurations /G. Rodrigues [et al.] // Atomic Data and Nuclear Data Tables. 2004.
Vol. 86. P. 117.112. Johnson W. The lamb shift in hydrogen-like atoms, 1 6 6 110 / W. Johnson, G. Soff //Atomic Data and Nuclear Data Tables. 1985. Vol. 33. P. 405.89113. QED calculation of the = 1 and = 2 energy levels in He-like ions / A. N. Artemyev[et al.] // Phys. Rev. A.
2005. Vol. 71. P. 062104.114. Ohya S. Nuclear Data Sheets for = 123 / S. Ohya // Nuclear Data Sheets. 2004.Vol. 102. P. 547.115. Clayton D. Cosmoradiogenic Chronologies of Nucleosynthesis / D. Clayton //Astrophysical Journal. 1964. Vol. 139. P. 637.116. Basunia M. S. Nuclear Data Sheets for A = 187 / M.
S. Basunia // Nuclear Data Sheets.2009. Vol. 110. P. 999.117. Luck J.-M. 187Re–187Os systematics in meteorites and cosmochemical consequences /J.-M. Luck, A. C. L. // Nature. 1983. Vol. 302. P. 10.118. Yokoi K. The 187 Re −187 Os chronology and chemical evolution of the Galaxy / K. Yokoi,K. Takahashi, M. Arnould // Astronomy and Astrophysics. 1983. Vol. 117. P. 65.119. Bolometric Bounds on the Antineutrino Mass / C. Arnaboldi [et al.] // Phys. Rev. Lett.2003. Vol.
91. P. 161802.120. Nucciotti A. The MARE Project / A. Nucciotti // Journal of Low Temperature Physics.2008. Vol. 151. P. 597.121. Detection of 187Re beta decay with a cryogenic microcalorimeter. Preliminary results /E. Cosulich [et al.] // Physics Letters B. 1992. Vol.
295, no. 1. P. 143.122. Brodzinski R. L. Decay of Rhenium-187 / R. L. Brodzinski, D. C. Conway // Phys. Rev.1965. Vol. 138. P. 1368.123. Huster E. Das β-Spektrum des natürlichen Rhenium 187 / E. Huster, H. Verbeek //Zeitschrift für Physik. 1967. Vol. 203. P. 435.124. Ashktorab K. Beta decay of 187 Re and cosmochronology / K. Ashktorab, J.
W. Jänecke,F. D. Becchetti // Phys. Rev. C. 1993. Vol. 47. P. 2954.125. Bolometric measurements of beta decay spectra of 187Re with crystals of silverperrhenate / A. Alessandrello [et al.] // Physics Letters B. 1999. Vol. 457. P. 253.126. End-point energy and half-life of the2000. Vol. 63. P. 014302.187Re β-decay / M.
Galeazzi [et al.] // Phys. Rev. C.127. Search for new candidates for the neutrino-oriented mass determination byelectron-capture / Y. Novikov [et al.]. 2008. CERN-INTC-2008-012/INTC-P-242.128. Integration of Radioactive Material with Microcalorimeter Detectors / M. P. Croce[et al.] // Journal of Low Temperature Physics. 2014. Vol. 176. P. 1009.129. Recent Results for the ECHo Experiment / C. Hassel [et al.] // Journal of LowTemperature Physics. 2016. Vol.
184. P. 910.130. Moreno O. Warm dark matter sterile neutrinos in electron capture and beta decayspectra / O. Moreno, E. Moya de Guerra, M. R. Medrano // Adv. High Energy Phys.2016. Vol. 2016. P. 6318102.9091Приложение АСхемы распадов некоторых нуклидов, представляющихастрофизический интересВ таблице 6 представлен список нуклидов, периоды полураспада которых сильноподвержены влиянию высокотемпературных звездных условий. Энергетические уровни нуклидов расположены с учетом их последовательного расположения друг относительно друга,но без учета масштаба. Взаимное расположения основных ядерных состояний изображенодля нейтральных атомов.
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