Disentangling effects of potential shape in the fission rate of heated nuclei

I. I. Gontchar; M. V. Chushnyakova; N. E. Aktaev; A. L. Litnevsky; E. G. Pavlova

doi:10.1103/PhysRevC.82.064606

Disentangling effects of potential shape in the fission rate of heated nuclei

I. I. Gontchar
, M. V. Chushnyakova
, N. E. Aktaev
, A. L. Litnevsky
, E. G. Pavlova

Omsk State Transport University

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

36 Scopus citations

Abstract

We have compared the results of dynamical modeling of the fission process with predictions of the Kramers formulas. For the case of large dissipation, there are two of them: the integral rate R_I and its approximation R_O. As the ratio of the fission barrier height B_f to the temperature T reaches 4, any analytical rate is expected to agree with the dynamical quasistationary rate R_D within 2%. The latter has been obtained using numerical modeling with six different potentials. It has been found that the difference between R_O and R_D sometimes exceeds 20%. The features of the potentials used that are responsible for this disagreement are identified and studied. It is demonstrated that it is R _I, not R_O, that meets this expectation regardless of the potential used.

Original language	English
Article number	064606
Journal	Physical Review C - Nuclear Physics
Volume	82
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevC.82.064606
State	Published - 21 Dec 2010
Externally published	Yes

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10.1103/PhysRevC.82.064606

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title = "Disentangling effects of potential shape in the fission rate of heated nuclei",

abstract = "We have compared the results of dynamical modeling of the fission process with predictions of the Kramers formulas. For the case of large dissipation, there are two of them: the integral rate RI and its approximation RO. As the ratio of the fission barrier height Bf to the temperature T reaches 4, any analytical rate is expected to agree with the dynamical quasistationary rate RD within 2\%. The latter has been obtained using numerical modeling with six different potentials. It has been found that the difference between RO and RD sometimes exceeds 20\%. The features of the potentials used that are responsible for this disagreement are identified and studied. It is demonstrated that it is R I, not RO, that meets this expectation regardless of the potential used.",

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AU - Gontchar, I. I.

AU - Chushnyakova, M. V.

AU - Aktaev, N. E.

AU - Litnevsky, A. L.

AU - Pavlova, E. G.

PY - 2010/12/21

Y1 - 2010/12/21

N2 - We have compared the results of dynamical modeling of the fission process with predictions of the Kramers formulas. For the case of large dissipation, there are two of them: the integral rate RI and its approximation RO. As the ratio of the fission barrier height Bf to the temperature T reaches 4, any analytical rate is expected to agree with the dynamical quasistationary rate RD within 2%. The latter has been obtained using numerical modeling with six different potentials. It has been found that the difference between RO and RD sometimes exceeds 20%. The features of the potentials used that are responsible for this disagreement are identified and studied. It is demonstrated that it is R I, not RO, that meets this expectation regardless of the potential used.

AB - We have compared the results of dynamical modeling of the fission process with predictions of the Kramers formulas. For the case of large dissipation, there are two of them: the integral rate RI and its approximation RO. As the ratio of the fission barrier height Bf to the temperature T reaches 4, any analytical rate is expected to agree with the dynamical quasistationary rate RD within 2%. The latter has been obtained using numerical modeling with six different potentials. It has been found that the difference between RO and RD sometimes exceeds 20%. The features of the potentials used that are responsible for this disagreement are identified and studied. It is demonstrated that it is R I, not RO, that meets this expectation regardless of the potential used.

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VL - 82

JO - Physical Review C - Nuclear Physics

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Disentangling effects of potential shape in the fission rate of heated nuclei

Abstract

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