A rigorous proof of the Strutinsky energy theorem is derived, providing a new interpretation of shell-correction decomposition and foundations for nuclear density functional theory.
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Theoretical estimates find maximum ER cross sections of 233 fb, 206 fb, 33 fb and 38 fb for the 48Ca+254Es, 50Ti+249Bk, 51V+248Cm and 54Cr+243Am reactions respectively, dominated by Q-value versus barrier height and mass-model uncertainties in survival probability.
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Rigorous proof of the Strutinsky energy theorem and foundations of nuclear density functional theory
A rigorous proof of the Strutinsky energy theorem is derived, providing a new interpretation of shell-correction decomposition and foundations for nuclear density functional theory.
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Theoretical estimates for the synthesis of $Z=119$ superheavy nuclei with Ca, Ti, V, and Cr projectiles: effects of reaction $Q$ values and mass-model dependence
Theoretical estimates find maximum ER cross sections of 233 fb, 206 fb, 33 fb and 38 fb for the 48Ca+254Es, 50Ti+249Bk, 51V+248Cm and 54Cr+243Am reactions respectively, dominated by Q-value versus barrier height and mass-model uncertainties in survival probability.