Presentation is loading. Please wait.

Presentation is loading. Please wait.

Gas phase spectroscopy at the CLS

Published byJoshua Burns Modified over 8 years ago

Similar presentations

Presentation on theme: "Gas phase spectroscopy at the CLS"— Presentation transcript:

1 Gas phase spectroscopy at the CLS http://www.lightsource.ca

2 VLS-PGM Beamline Y Hu et al, Rev. Sci. Instrum. 78 (2007) p083109

3 VLS-PGM Beamline

4

5 Instruments for gas-phase science at the VLS-PGM beamline Dual toroidal electrostatic analyser Wiley-McLaren time-of-flight mass spectrometer

6 Dual toroidal analyser T J Reddish et al (1997) Rev. Sci. Instrum. 68 2685 A E Slattery et al (2000) J. Phys. B. 33 4383 Toroidal analysers can energy select the charged particles (ions/ electrons) while preserving the initial angle of emission. Both analysers are independent and each can be switched to detect electrons or ions. Both can operate in threshold (TPES) mode Detectors can operate in coincidence mode

7 Dual toroidal analyser

8

9

10 Since the toroidal analyser preserves the azimuthal angle of emission of the photoelectron we can find the photoelectron asymmetry parameter across a photoelectron spectrum. That is we can record “beta paramer” spectra. The spectra here are beta parameter spectra for H 2 and will be the subject of the 2 nd half of this talk. Finally we remember that the detectors can be configured for electrons or ions.

11 Time of Flight Electron Start – Ion Stop, with multi-hit electronics No energy discrimination on the electron Allows ToF mass spectra and PePIPICO 2D maps

12 Time of Flight Parent “C 4 ” “C 3 ” “C 2 ” Water “C 1 ”

13 ToF PePIPICO para-nitroaniline

14 Time of Flight

15 http://www.lightsource.ca If any of this would be of interest to you please talk to me at this symposium. Michael MacDonald Canadian Light Source Inc. 44 Innovation Boulevard Saskatoon, SK, S7N 2V3 306 657 3812

16 Hydrogen

17

18 Direct mechanisms (a) and (b) produce only a limited range of electron energies due to Franck-Condon Factor restrictions Indirect mechanisms (c) and (d) produce a wide range of electron kinetic energies. Further mechanism (d) can decay to either the bound σ g or dissociative σ u state of the ion. Remember in quantum mechanics indistinguishable paths to the same destination interfere.

19 Hydrogen

20 Red – experimental results Black – full QM closed coupling calculations

21 Hydrogen

22

23

24 Results and the simplified model

25 Summary of H 2 results Unusual properties of observed interference Interference shows in direction of photoelectrons not intensity Direction of photoelectrons are dictated by nuclear motion (Ultimately it all comes back to symmetry !) Interference is from different autoionisation paths from a coherent superposition of electronic states. (Not direct ionisation and autoionisation from a single excited state) This is not a coincidence experiment, and, indeed, the oscillations would disappear in a coincidence experiment.

26

27 Acknowledgements Dr. Tim Reddish Dr. Arathi Padmanabhan Dr. Smialek-Telega Prof. Nigel Mason Dr. Lucia Zuin Ru Igarishi Antonio C.O. Guerra and Cássia C. Turci Instituto de Química, Universidade Federal do Rio de Janeiro, Rio de Janeiro, RJ 21941-909, Brazil Dr. J. Fernández Dr. A. Palacios Prof. F. Martín

28

Download ppt "Gas phase spectroscopy at the CLS"

Similar presentations

The atom and its nucleus

The atom and its nucleus
Neutrino physics using Nuclear Reactors J. Magnin Centro Brasileiro de Pesquisas Físicas Rio de Janeiro - Brazil.

Neutrino physics using Nuclear Reactors J. Magnin Centro Brasileiro de Pesquisas Físicas Rio de Janeiro - Brazil.
Result of T-violating Muon Polarization Measurement in the K + →  0  + Decay C. Rangacharyulu Saskatoon, SK for the KEK-E246 collaboration June 7, ‘04.

Result of T-violating Muon Polarization Measurement in the K + →  0  + Decay C. Rangacharyulu Saskatoon, SK for the KEK-E246 collaboration June 7, ‘04.
Interplay Between Electronic and Nuclear Motion in the Photodouble Ionization of H 2 T J Reddish, J Colgan, P Bolognesi, L Avaldi, M Gisselbrecht, M Lavollée,

Interplay Between Electronic and Nuclear Motion in the Photodouble Ionization of H 2 T J Reddish, J Colgan, P Bolognesi, L Avaldi, M Gisselbrecht, M Lavollée,
1 Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.

1 Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.
Frequency and Time Domain Studies of Toluene Adrian M. Gardner, Alistair M. Green, Julia A. Davies, Katharine L. Reid and Timothy G. Wright.

Frequency and Time Domain Studies of Toluene Adrian M. Gardner, Alistair M. Green, Julia A. Davies, Katharine L. Reid and Timothy G. Wright.
1 Localized surface plasmon resonance of optically coupled metal particles Takumi Sannomiya*, Christian Hafner**, Janos Vörös* * Laboratory of Biosensors.

1 Localized surface plasmon resonance of optically coupled metal particles Takumi Sannomiya*, Christian Hafner**, Janos Vörös* * Laboratory of Biosensors.
Phys 102 – Lecture 25 The quantum mechanical model of light.

Phys 102 – Lecture 25 The quantum mechanical model of light.
QM Interference in τ ± →π ± π + π - π 0 ν τ decays at BaBar Tim West The University of Manchester.

QM Interference in τ ± →π ± π + π - π 0 ν τ decays at BaBar Tim West The University of Manchester.
Ionisation of H 2 O by Proton and Atomic Hydrogen Impact at velocities ~ the Bragg peak Sam Eden Institut de Physique Nucléaire de Lyon

Ionisation of H 2 O by Proton and Atomic Hydrogen Impact at velocities ~ the Bragg peak Sam Eden Institut de Physique Nucléaire de Lyon
Lecture 2110/24/05. Light Emission vs. Absorption Black body.

Lecture 2110/24/05. Light Emission vs. Absorption Black body.
Advanced Higher Chemistry Unit 1 Spectroscopy. Spectroscopy  Spectroscopy is used to give information regarding the structure of atoms or molecules.

Advanced Higher Chemistry Unit 1 Spectroscopy. Spectroscopy  Spectroscopy is used to give information regarding the structure of atoms or molecules.
European Joint PhD Programme, Lisboa, 10.2.2009 Diagnostics of Fusion Plasmas Spectroscopy Ralph Dux.

European Joint PhD Programme, Lisboa, Diagnostics of Fusion Plasmas Spectroscopy Ralph Dux.
Photoelectron Photoion Coincidence Spectroscopy: Trimethylphosphine András Bődi Málstofa í efnafræði Raunvísindastofnun Háskólans Reykjavík, 18/02/2005.

Photoelectron Photoion Coincidence Spectroscopy: Trimethylphosphine András Bődi Málstofa í efnafræði Raunvísindastofnun Háskólans Reykjavík, 18/02/2005.
Lecture 3 INFRARED SPECTROMETRY

Lecture 3 INFRARED SPECTROMETRY
Infrared spectroscopy of Li(methylamine) n (NH 3 ) m clusters Nitika Bhalla, Luigi Varriale, Nicola Tonge and Andrew Ellis Department of Chemistry University.

Infrared spectroscopy of Li(methylamine) n (NH 3 ) m clusters Nitika Bhalla, Luigi Varriale, Nicola Tonge and Andrew Ellis Department of Chemistry University.
TOF Mass Spectrometer &

TOF Mass Spectrometer &
CHEMISTRY 2000 Topic #1: Bonding – What Holds Atoms Together? Spring 2010 Dr. Susan Lait.

CHEMISTRY 2000 Topic #1: Bonding – What Holds Atoms Together? Spring 2010 Dr. Susan Lait.
Chapter 8 – Mass Spectrometry. Mass Spectrometry The mass spectrometer can be used for: – Quantitative analysis – as a sophisticated and very sensitive.

Chapter 8 – Mass Spectrometry. Mass Spectrometry The mass spectrometer can be used for: – Quantitative analysis – as a sophisticated and very sensitive.
 How does the wavelength of a light beam and the size of a slit it is going through control the amount of diffraction? DO WORK STOP.

 How does the wavelength of a light beam and the size of a slit it is going through control the amount of diffraction? DO WORK STOP.

Similar presentations

Ads by Google