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• W2323955066 abstract "In a recent paper [Phys. Rev. C 85, 011601(R) (2012)] we proposed that excitation energy at scission (${E}_{mathrm{sc}}^{*}$) measured at high initial excitation energy (${E}^{*}$), which can be provided via proton induced spallation reaction approach, is a novel probe of nuclear dissipation ($ensuremath{beta}$). The present work is devoted to studying within the framework of the stochastic Langevin model the robustness of the conclusion with respect to the apparent changes in the spin of compound nuclei (CNs), in the magnitudes of the neutron-to-proton ratio of a CN and its fissility and size. In addition, the role of deformation effects as well as the influence resulting from different coefficients applied to deformation-dependent level-density parameters are investigated. All these factors have been found to have important effects on particle multiplicity, evaporation residue cross section, etc., which have widely been used as probes of nuclear dissipation. However, we find that the significant sensitivity of ${E}_{mathrm{sc}}^{*}$ to $ensuremath{beta}$ at high ${E}^{*}$ is little affected by these factors. The result demonstrates that a measurement of ${E}_{mathrm{sc}}^{*}$ in proton-nucleus reactions can place a robust constraint on the friction strength in the fission process of highly excited nuclei." @default.
• W2323955066 created "2016-06-24" @default.
• W2323955066 creator A5034172258 @default.
• W2323955066 creator A5071708599 @default.
• W2323955066 date "2012-09-17" @default.
• W2323955066 modified "2023-09-25" @default.
• W2323955066 title "Robustness of the excitation energy at scission as a novel probe of nuclear dissipation at high energy" @default.
• W2323955066 cites W1585792432 @default.
• W2323955066 cites W1616184509 @default.
• W2323955066 cites W1665890653 @default.
• W2323955066 cites W1964096158 @default.
• W2323955066 cites W1969120240 @default.
• W2323955066 cites W1969965678 @default.
• W2323955066 cites W1971085412 @default.
• W2323955066 cites W1972364113 @default.
• W2323955066 cites W1974421643 @default.
• W2323955066 cites W1974725753 @default.
• W2323955066 cites W1980602616 @default.
• W2323955066 cites W1984136759 @default.
• W2323955066 cites W1986092576 @default.
• W2323955066 cites W1987064214 @default.
• W2323955066 cites W1987907705 @default.
• W2323955066 cites W1988990912 @default.
• W2323955066 cites W1995190731 @default.
• W2323955066 cites W1995968098 @default.
• W2323955066 cites W1997300181 @default.
• W2323955066 cites W1997861986 @default.
• W2323955066 cites W1998073454 @default.
• W2323955066 cites W1998555201 @default.
• W2323955066 cites W2001759294 @default.
• W2323955066 cites W2002578007 @default.
• W2323955066 cites W2008763628 @default.
• W2323955066 cites W2009948210 @default.
• W2323955066 cites W2013361492 @default.
• W2323955066 cites W2013739648 @default.
• W2323955066 cites W2015223385 @default.
• W2323955066 cites W2016095403 @default.
• W2323955066 cites W2016177623 @default.
• W2323955066 cites W2017227883 @default.
• W2323955066 cites W2018660741 @default.
• W2323955066 cites W2019821086 @default.
• W2323955066 cites W2020984650 @default.
• W2323955066 cites W2021430621 @default.
• W2323955066 cites W2024747309 @default.
• W2323955066 cites W2027426063 @default.
• W2323955066 cites W2030795408 @default.
• W2323955066 cites W2033585242 @default.
• W2323955066 cites W2033825844 @default.
• W2323955066 cites W2035967947 @default.
• W2323955066 cites W2037547864 @default.
• W2323955066 cites W2038329873 @default.
• W2323955066 cites W2038793185 @default.
• W2323955066 cites W2042222043 @default.
• W2323955066 cites W2043923557 @default.
• W2323955066 cites W2046638832 @default.
• W2323955066 cites W2046646850 @default.
• W2323955066 cites W2050918806 @default.
• W2323955066 cites W2051748217 @default.
• W2323955066 cites W2060580476 @default.
• W2323955066 cites W2061075752 @default.
• W2323955066 cites W2061833508 @default.
• W2323955066 cites W2063916044 @default.
• W2323955066 cites W2064864115 @default.
• W2323955066 cites W2065152861 @default.
• W2323955066 cites W2065841656 @default.
• W2323955066 cites W2065961672 @default.
• W2323955066 cites W2068731650 @default.
• W2323955066 cites W2072290720 @default.
• W2323955066 cites W2076156760 @default.
• W2323955066 cites W2080272910 @default.
• W2323955066 cites W2081039154 @default.
• W2323955066 cites W2081397443 @default.
• W2323955066 cites W2083712068 @default.
• W2323955066 cites W2084144457 @default.
• W2323955066 cites W2085090677 @default.
• W2323955066 cites W2087890603 @default.
• W2323955066 cites W2088423298 @default.
• W2323955066 cites W2088868362 @default.
• W2323955066 cites W2089350071 @default.
• W2323955066 cites W2089370027 @default.
• W2323955066 cites W2089536225 @default.
• W2323955066 cites W2090940419 @default.
• W2323955066 cites W2091861764 @default.
• W2323955066 cites W2093605199 @default.
• W2323955066 cites W2105208340 @default.
• W2323955066 cites W2111977874 @default.
• W2323955066 cites W2125511042 @default.
• W2323955066 cites W2134459288 @default.
• W2323955066 cites W2154997619 @default.
• W2323955066 cites W2318358578 @default.
• W2323955066 cites W2320531600 @default.
• W2323955066 cites W2335367337 @default.
• W2323955066 cites W2984747432 @default.
• W2323955066 cites W3104398724 @default.
• W2323955066 cites W4232994501 @default.
• W2323955066 cites W4376544997 @default.
• W2323955066 cites W2326350566 @default.
• W2323955066 doi "https://doi.org/10.1103/physrevc.86.034605" @default.
• W2323955066 hasPublicationYear "2012" @default.
• W2323955066 type Work @default.

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