Pavel Trtik
Neutron Imaging and Applied Materials Group, Paul Scherrer Institut, Switzerland
Abstract: Neutron imaging is a viable complementary technique to other imaging modalities, such as X-ray imaging. As in the case of all other techniques there is a constant demand for the enhancement of its resolution capabilities. Within the framework of the ‘PSI Neutron Microscope’ (‘NM’) project, the spatial resolution of neutron imaging was pushed down to the sub-5 micrometres domain in 2D and below 10 micrometres in 3D.
Based on this advancement, the ‘NM’ detector was included in the standard user programme as an add-on detector available at the ICON and the POLDI beamlines at the Paul Scherrer Institut (PSI), Switzerland. The successful applications of the ‘NM’ include but are not limited to the hydrogen quantification in zirconium nuclear fuel claddings, the assessment of coating distribution on gas diffusion layers for polymer electrolyte fuel cells, and the visualization of cavitation in realistic Diesel injection nozzles, the pore size distribution in additively manufactured gold with 10 µm resolution an accomplishment hardly amenable by other non-destructive techniques while being highly industrially relevant.
On the temporal scale, the resolution as been recently extended to nearly 1000 frames per second (albeit at lower spatial resolution) which enabled useful investigations of various types of flows (e.g. air-water two phase flow, Argon bubble flows in liquid metals). The quantitativeness of the neutron imaging has been recently enhanced by the so-called black body correction thus allowing for the high fidelity assessment of attenutaion coefficients. This has become a useful tool for all the investigations in which the quantitative values of material compositions are in the focus of scientific questioning.
November 2012 – present:
Scientist, Neutron Imaging and Applied Materials Group (NIAG), Paul Scherrer Institut, Villigen, Switzerland.
From 2018 ‘NEUTRA’ beamline scientist Responsible for the Neutron Microscope instrument at POLDI/ICON beamlines. Development of high-spatial and high-temporal resolution neutron imaging. Projects linked to the use of neutron imaging of construction materials.
April 2008 – September 2012:
Scientist, Laboratory for Cement and Construction Chemistry, EMPA Dübendorf, Switzerland.
March 2006 – February 2008:
Postdoctoral Research Assistant, Centre of Mechanics (Group Prof. J. Dual), ETH Zürich, Switzerland.
January 2003 – February 2006:
Postdoctoral Research Assistant, Institute for Building Materials (Group Prof. J. G. M. van Mier), ETH Zürich, Switzerland.
January 2001 – November 2002:
Postdoctoral Research Assistant, Scottish Centre for Nanotechnology in Construction Materials, University of Paisley, Scotland, UK.
March 1997 – December 2000:
PhD Student, Advanced Concrete & Masonry Centre, University of Paisley, supervised by Prof Peter J M Bartos.
September 1991 - January 1997:
Full-time Student, Faculty of Civil Engineering, Czech Technical University, Prague, The Czech Republic.
June 1996 - December 1997:
Part-time Engineering Assistant, Stavby Silnic a Zeleznic a.s., Czech civil engineering contractor
July 1995 - August 1995:
Temporary Engineering Assistant, Stavby Mostu plc, Czech contractor specialising in bridge construction.
June 1993 - August 1993:
Trainee Engineer, Maunsell & Partners, consulting civil engineers in Cardiff, Wales, UK.