Direct determination of molecular handedness via coulomb explosion imaging

Authors :: Pitzer, M.
Kunitski, M.
Kastirke, G.
Jahnke, T.
Bauer, T.
Goihl, C.
Trinter, F.
Schober, C.
Henrichs, K.
Becht, J.
Zeller, S.
Gassert, H.
Waitz, M.
Kuhlins, A.
Wiegandt, F.
Wallauer, R.
Schmidt, L.Ph.H.
Mazenauer, M.
Spenger, B.
Marquardt, S.
Schmidt-Böcking, H.
Stohner, J.
Dörner, R.
Schöffler, M.S.
Berger, R.
Pitzer, M.
Kunitski, M.
Kastirke, G.
Jahnke, T.
Bauer, T.
Goihl, C.
Trinter, F.
Schober, C.
Henrichs, K.
Becht, J.
Zeller, S.
Gassert, H.
Waitz, M.
Kuhlins, A.
Wiegandt, F.
Wallauer, R.
Schmidt, L.Ph.H.
Mazenauer, M.
Spenger, B.
Marquardt, S.
Schmidt-Böcking, H.
Stohner, J.
Dörner, R.
Schöffler, M.S.
Berger, R.
Publication Year :: 2018
Abstract: In this work, we show that the direct determination of a chiral molecule's absolute configuration can be achieved with Coulomb Explosion Imaging in a COLTRIMS reaction microscope. We compare the results after ionisation with femto-second laser pulses and with X-ray synchrotron light. Different fragmentation pathways of the prototypical chiral molecule CHBrClF are identified that carry information on the handedness. The applicabilty of the technique towards bigger molecules is discussed.

Database :: OAIster
Notes :: application/pdf, XXIX International Conference on Photonic, Electronic, and Atomic Collisions (ICPEAC2015), Toledo, Spain, 22-28 July 2015, English
Publication Type :: Electronic Resource
Accession number :: edsoai.on1362716494
Document Type :: Electronic Resource