Deprecated: Required parameter $newvalue follows optional parameter $option in /srv/www/impa-dev.kindle.com.br/public_www/wp-content/plugins/impa-ldap-login/IMPA-LDAP-Login.php on line 145

Deprecated: Required parameter $newvalue follows optional parameter $option in /srv/www/impa-dev.kindle.com.br/public_www/wp-content/plugins/impa-ldap-login/IMPA-LDAP-Login.php on line 159

Deprecated: Required parameter $directory follows optional parameter $username in /srv/www/impa-dev.kindle.com.br/public_www/wp-content/plugins/impa-ldap-login/IMPA-LDAP-Login.php on line 292
Magnetic geometry - IMPA - Instituto de Matemática Pura e Aplicada
Este é um ambiente de STAGING. Não é o site de produção!

Magnetic systems represent a classical topic which is still of great mathematical interest. They systematically appear in contemporary physic, from collider accelerators and plasma fusion, where the magnetic field confines the particle on a desired region of the space; to Earth’s magnetosphere and mass spectrometry, where the magnetic field acts as a mirror or a prism. From a mathematical point of view, a magnetic system is the pure toy model for the motion of a charged particle moving on a Riemannian Manifold endowed with a (static) magnetic force. In this course we put in evidence some geometrical aspect of such dynamics.
|
Part 1 – Magnetic systems and magnetic geodesics – Hamiltonian and variational setting – The existence of closed magnetic geodesics – The magnetic exponential map – Magnetic systems on surfaces.

Part 2 – Magnetic curvature operator – Sectional, Ricci and Scalar magnetic curvature – Jacobi equation and the second variation of the magnetic energy.

Part 3 – Magnetic flows positively curved – The Bonnet-Myers Theorem in the magnetic case – Application to the existence of closed magnetic geodesic – Some topological discussion for magnetic flows with positive magnetic curvatures.

Part 4 – Magnetic flows without conjugate points – Magnetic systems negatively curved – Magnetic CartanHadamard Theorem – The magnetic Hopf-Green Theorem – Magnetic flatness.

Infos Exams:
The students will select and present one of the above topics. The schedule of the lectures as well as references and basic information will appear soon.