Spin-Isospin Seminar

by Dr Patrick Hautle (Paul Scherrer Institut)

Monday 19 Nov 2012, 15:00 → 16:30 Asia/Tokyo

Nishina Hall, RIKEN

Dear all, This is an announcement of the Spin-Isospin Seminar; Date: Nov. 19, 2012 Time: 15:00 - Place: Nishina hall Lecturer: Dr. Patrick Hautle (Paul Scherrer Institut, senior researcher) Title: Dynamic Nuclear Polarization - from Polarized Targets to Metabolic Imaging. Abstract: Dynamic nuclear polarization (DNP) is a most powerful tool to obtain high nuclear spin polarization. Originally used to build polarized targets to study the role of spin in nuclear and particle interactions, it has also opened new possibilities in neutron science by exploiting the strong spin dependence of the neutron scattering on protons. Its potential to achieve strong signal enhancement has now become a driving force in different fields of magnetic resonance. The huge increase in contrast obtained in magnetic resonance imaging (MRI) has recently opened the way to clinical applications. In a first part the talk will overview applications of classical methods of DNP in the different fields. The classical DNP schemes are applied to solid samples that contain spatially immobile electron spins in addition to the nuclear spins of interest and have the clear disadvantage that they require temperatures of 1 K or lower and fields of several tesla. The second part presents very recent work on a promising DNP method that relieves this drawback. It uses short-lived photo-excited triplet states and requires neither low temperatures nor high fields. This is immediately attractive in view of applications as technically simpler systems with open geometries become feasible. A proven system for this method is naphthalene doped with pentacene in which high proton spin polarizations can be obtained. Recently we have demonstrated that the triplet method can be used to build a reliably working spin filter for neutrons operating at 0.3 T at a temperature of 100K. So far all triplet DNP experiments in naphthalene crystals have been performed with pentacene-h14. We found that triplet DNP using fully deuterated pentacene-d14 is at least as efficient to polarize the proton spins in the host naphthalene crystal. In a field of 0.3 T a proton polarization of 0.50 has been achieved. As technique for DNP the integrated solid effect (ISE) scheme was employed to transfer the large electron polarization of the triplet states directly to the proton spins on naphthalene.