LX Международная конференция по ядерной физике «Ядро 2010. Методы ядерной физики для фемто- и нанотехнологий»
LX Международная конференция по ядерной физике «Ядро 2010. Методы ядерной физики для фемто- и нанотехнологий»
LX Международная конференция по ядерной физике «Ядро 2010. Методы ядерной физики для фемто- и нанотехнологий»
Дата начала: 06.07.2010 Дата окончания: 09.07.2010 Место проведения: Санкт-Петербург | Сайт конференции http://www.onlinereg.ru/site.p~ |
Организаторы
- ST. PETERSBURG STATE UNIVERSITY
- RUSSIAN ACADEMY OF SCIENCES
- PETERSBURG NUCLEAR PHYSICS INSTITUTE
Описание конференции
Section 1. Experimental study of nuclear properties and fundamental interactions:
- neutron-rich nuclei;
- nuclei far from the stability valley;
- giant resonances;
- multiphonon and multiquasiparticle states of nuclei;
- high-spin and superdeformed states of nuclei;
- beta decay of nuclei;
- synthesis of superheavy elements;
- nuclear databases.
Section 2. Experimental study of nuclear reactions:
- reaction with polarized particles;
- reaction with electrons and gamma-rays;
- reaction with heavy ions;
- fusion and fission of nuclei;
- multifragmentation of nuclei;
- reactions with neutrons and ultracold neutrons;
- reactions induced by the elementary particles.
Section 3. The theory of atomic nucleus and fundamental interactions:
- nuclear many-body problem;
- microscopic description of nuclear collectivity and its interaction with single-particle motion;
- theory of a few-body systems;
- non-linear nuclear dynamics;
- meson and quark degrees of freedom in nuclei, mesoatoms;
- hypernuclei and other exotic systems;
- nucleus interaction with atomic shell electrons;
- theories of elementary particle interaction and conservation laws;
- application of nuclear and particle physics to the astrophysical objects.
- clusters in nuclei and Bose-Einstein condensation
Section 4. Nuclear reaction theory:
- theory of direct nuclear reactions;
- statistical theory of nuclear reactions;
- theory of reactions with clusters and heavy ions;
- theory of astrophysical nucleosynthesis;
- relativistic theory of nuclear collisions;
- theory of polarization phenomena in nuclear reactions;
- theory of the proton, two-proton and cluster radioactivity and fission of nuclei;
- theory of photonuclear reactions.
Section 5. Investigations with radioactive nuclear beams:
- methods of production of radiactive nuclear beams;
- new facilities for radioactive nuclear beams;
- nuclear reactions in the vicinity of driplines;
- properties of exotic nuclei;
- beyond the neutron and proton driplines;
- investigations of halo nuclei;
- superheavy nuclei researches;
- radioactive nuclear beams and nuclear astrophysics
Section 6. Experimental technique and its applications:
- instruments and methods of nuclear-physics experiment, data processing management;
- radiation detectors; - accelerator technologies;
- nuclear and radiation safety, radioecology;
- radiation technology in micro- and nanoelectronics for the creation of new materials;
- evolution of beams and particles in the crystal.
- neutron-rich nuclei;
- nuclei far from the stability valley;
- giant resonances;
- multiphonon and multiquasiparticle states of nuclei;
- high-spin and superdeformed states of nuclei;
- beta decay of nuclei;
- synthesis of superheavy elements;
- nuclear databases.
Section 2. Experimental study of nuclear reactions:
- reaction with polarized particles;
- reaction with electrons and gamma-rays;
- reaction with heavy ions;
- fusion and fission of nuclei;
- multifragmentation of nuclei;
- reactions with neutrons and ultracold neutrons;
- reactions induced by the elementary particles.
Section 3. The theory of atomic nucleus and fundamental interactions:
- nuclear many-body problem;
- microscopic description of nuclear collectivity and its interaction with single-particle motion;
- theory of a few-body systems;
- non-linear nuclear dynamics;
- meson and quark degrees of freedom in nuclei, mesoatoms;
- hypernuclei and other exotic systems;
- nucleus interaction with atomic shell electrons;
- theories of elementary particle interaction and conservation laws;
- application of nuclear and particle physics to the astrophysical objects.
- clusters in nuclei and Bose-Einstein condensation
Section 4. Nuclear reaction theory:
- theory of direct nuclear reactions;
- statistical theory of nuclear reactions;
- theory of reactions with clusters and heavy ions;
- theory of astrophysical nucleosynthesis;
- relativistic theory of nuclear collisions;
- theory of polarization phenomena in nuclear reactions;
- theory of the proton, two-proton and cluster radioactivity and fission of nuclei;
- theory of photonuclear reactions.
Section 5. Investigations with radioactive nuclear beams:
- methods of production of radiactive nuclear beams;
- new facilities for radioactive nuclear beams;
- nuclear reactions in the vicinity of driplines;
- properties of exotic nuclei;
- beyond the neutron and proton driplines;
- investigations of halo nuclei;
- superheavy nuclei researches;
- radioactive nuclear beams and nuclear astrophysics
Section 6. Experimental technique and its applications:
- instruments and methods of nuclear-physics experiment, data processing management;
- radiation detectors; - accelerator technologies;
- nuclear and radiation safety, radioecology;
- radiation technology in micro- and nanoelectronics for the creation of new materials;
- evolution of beams and particles in the crystal.