Add to ORKGExplaining observed properties in terms of underlying shape degrees of freedom is a well–established prism with which to understand atomic nuclei. Self–consistent mean–field models provide one tool to understand nuclear shapes, and their link to other nuclear properties and observables. We present examples of how the time–dependent extension of the mean–field approach can be used in particular to shed light on nuclear shape properties, particularly looking at the giant resonances built on deformed nuclear ground states, and at dynamics in highly-deformed fission isomers. Example calculations are shown of 28Si in the first case, and 240Pu in the latter case
Background: Nuclear fission is a complex large-amplitude collective decay mode in heavy nuclei. Micr...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
Explaining observed properties in terms of underlying shape degrees of freedom is a well–established...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
We studied the nuclear shape evolutions in fission process of 240Pu by the time-dependent Hartree- F...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
Background: Nuclear fission is a complex large-amplitude collective decay mode in heavy nuclei. Micr...
The masses and sizes of nuclear ground states constitute two of the most precise and extensive array...
The masses and sizes of nuclear ground states constitute two of the most precise and extensive array...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
Background: Nuclear fission is a complex large-amplitude collective decay mode in heavy nuclei. Micr...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
Explaining observed properties in terms of underlying shape degrees of freedom is a well–established...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
The evolution of shapes and shape (phase) transitions, including regions of short-lived exotic nucle...
We studied the nuclear shape evolutions in fission process of 240Pu by the time-dependent Hartree- F...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
Background: Nuclear fission is a complex large-amplitude collective decay mode in heavy nuclei. Micr...
The masses and sizes of nuclear ground states constitute two of the most precise and extensive array...
The masses and sizes of nuclear ground states constitute two of the most precise and extensive array...
International audienceTo model the alpha decay, cluster radioactivity, fusion, fission and fragmenta...
Background: Nuclear fission is a complex large-amplitude collective decay mode in heavy nuclei. Micr...
International audienceThe availability of realistic potential energy landscapes in restricted deform...
International audienceThe availability of realistic potential energy landscapes in restricted deform...