Characterization of LaBr3(Ce) Detectors for Picosecond Lifetime Measurements

Michetti-Wilson, Julian

10 May 2013

There has been a great deal of interest in the use of LaBr3 (Ce) detectors for fast timing measurements. Due to their excellent energy resolution, ≈ 3% at 1MeV, they offer an improved signal to background over BaF2 which has ≈ 9% energy resolution. Many groups are planning arrays of LaBr3 detectors. The 8π collaboration has recently acquired a small array of 6 2”x 2” cylindrical LaBr3 detectors to replace its BaF2 detectors. We have been investigating the effects of detector-to-detector scattering on timing resolution. We have further investigated the use of Compton-suppression shields with LaBr3 detectors. This will also be the first testing of the DANTE acquisition system in the 8π. A summary of the results of our optimization, scattering studies, and Compton-suppression tests will be presented.

LaBr3(Ce)

scintillation

physics

8pi

lanthanum bromide

nuclear

Synthèse de cyclooctatétraènes par réactions en cascade palladocatalysées / Synthesis of cyclooctatetraenes through palladium-catalyzed cascade reactions

Blouin, Sarah

21 October 2016

Ces travaux de thèse ont permis de développer une voie d’accès à des systèmes polycycliques complexes contenant un cyclooctatétraène par réactions en cascade palladocatalysées à partir de substrats de départ originaux. Le mécanisme de formation de ces composés est tout à fait particulier. Une étude mécanistique approfondie, corroborée notamment par des calculs DFT, a mis en avant une étape de réaction inédite : une électrocyclisation conrotatoire 8pi d’un système triènyne formant ainsi un cyclooctadiènallène palladé. Cette méthodologie a permis de synthétiser de nombreux cyclooctatétraènes présentant une large diversité moléculaire. Les différents substituants du cyclooctatétraène ont pu être variés ainsi que la taille des cycles fusionnés à ce cyclooctatétraène. / This thesis work focused on the development of a new synthetic pathway leading to complex polycyclic molecules containing a cyclooctatetraene moiety via palladium-catalyzed cascade reactions from original starting substrates. The mechanism of formation of these compounds is very special. A thorough mechanistic study, supported in particular by DFT calculations, highlighted an unprecedented reaction step: an conrotatory 8pi electrocyclization of a trienyne system forming a palladiated cyclooctadienallene. This methodology allowed the synthesis of many cyclooctatetraenes showing a broad molecular diversity. The different substituents bearing by the cyclooctatetraene core were varied as well as the size of the fused rings to the cyclooctatetraene.

Cyclooctatétraène

Réactions en cascade

Cyclocarbopalladation

Palladium

Electrocyclisation 8pi

Electrocyclisation 6pi

Cyclooctadiènallène

Beta-carbo élimination

Cyclooctatetraene

Cascade reactions

Cyclocarbopalladation

Palladium

Electrocyclization 8pi

Electrocyclization 6pi

Cyclooctadienallene

Beta-carbo-elimination

547.2