The next Inside Diamond open day will feature stalls and activities, a short introduction to Diamond and a tour of the machine. We expect the visit will last around two and a half hours. Booking for open days opens 6-8 weeks in advance of the event. Click here for more details.
11:00 | Registration, coffee |
11:30 | Welcome & facility update |
12:15 | Lunch (RAL restaurant) |
12:45 | Poster session |
Session I - Coherent Imaging | |
13:30 | X-ray coherent and decoherent imaging Pierre Thibault, University College London |
14:00 | Aberration for good use – a single-shot coherent imaging approach with the aid of a modulator Fucai Zhang, University College London |
14:20 | The ptychographic sampling condition and decomposition of mixed states Darren Batey, University of Sheffield |
14:40 | High sensitivity and flexibility of the edge-illumination phase contrast approach Fabio A Vittoria, University College London |
15:00 | Tea and Coffee |
15:30 | Investigation of strain and defects in microcrystals using coherent x-ray diffraction Guillaume Beutier, SIMAP, France |
16:00 | Dark field, microscopic and tomographic implementations of edge-illumination phase contrast imaging Marco Endrizzi, University College London |
16:20 | Holographic X-ray Imaging Methods Mirna Saliba, Diamond Light Source |
16:40 | Discussions |
17:00 | Move to lecture theatre |
17:15 | Poster prizes |
17:30 | Keynote speaker |
18:30 | Drinks reception |
19:00 | Conference Dinner (RAL restaurant) |
Session II: Imaging with fluorescence , diffraction and IR | |
09:00 | Microfocus XANES-CT, XRF-CT and XRD-CT on single catalyst particles before and during liquid phase hydrogenation Stephen Price, Diamond Light Source |
09:25 | Constraining the settings of aqueous alteration in the early Solar System by microfocus X-ray spectroscopy Ashley King, Natural History Museum , London |
09:50 | Carbon dioxide diffusion in cordierite and beryl: SR-FTIR imaging |
10:30 | Coffee (Diamond atrium) |
11:00 | High-energy in-situ dynamic imaging of shock-compressed materials Michael Rutherford, Imperial College London |
11:25 | Peering into the Rock: A 4D Synchrotron Study of Salt Solution Movement Within Masonry Sandstone |
11:50 | Micro-CT imaging of reservoir condition CO2 during multi-phase flow in natural rock Matthew Andrew, Imperial College London |
12:30 | Lunch |
Diamond Light Source is the UK's national synchrotron science facility, located at the Harwell Science and Innovation Campus in Oxfordshire.
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Diamond Light Source Ltd
Diamond House
Harwell Science & Innovation Campus
Didcot
Oxfordshire
OX11 0DE
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