Conveners
NEW DIRECTIONS, NEW DEVELOPMENTS IN METHODOLOGY
- Hans Hofsaess (University of Goettingen)
NEW DIRECTIONS, NEW DEVELOPMENTS IN METHODOLOGY
- Pierre Dalmas de Reotier (CEA Grenoble)
NEW DIRECTIONS, NEW DEVELOPMENTS IN METHODOLOGY
- Haraldur Gunnlaugsson (Aarhus University)
NEW DIRECTIONS, NEW DEVELOPMENTS IN METHODOLOGY
- William Evenson
NEW DIRECTIONS, NEW DEVELOPMENTS IN METHODOLOGY
- William Evenson
Prof.
Tilman BUTZ
(University of Leipzig)
13/09/2010, 15:20
New Directions and Developments in Methodology
ORAL CONTRIBUTION
The nuclear quadrupole interaction is described as the product of the nuclear quadrupole moment Q with the electric field gradient (EFG) tensor. This is a symmetric, trace-less 3x3 tensor which usually is described by two quantities in the principle coordinate system: the largest component by magnitude is denoted by Vzz and the asymmetry parameter is defined as h = (Vxx – Vyy)/Vzz....
Dr
Esen Ercan Alp
(Argonne National Laboratory)
14/09/2010, 10:20
New Directions and Developments in Methodology
ORAL CONTRIBUTION
A review of progress made in synchrotron radiation based techniques
Prof.
W. A. MacFarlane
(Department of Chemistry, University of British Columbia, Vancouver, BC, Canada V6T 1Z1)
15/09/2010, 09:00
Dr
J.G. CORREIA
(ITN, Sacavem, Portugal)
16/09/2010, 11:10
New Directions and Developments in Methodology
ORAL CONTRIBUTION
Hyperfine interactions are due to the coupling of the nuclear quadrupole and magnetic moments with the electric field gradient and magnetic fields present inside a material, respectively. “Hyperfine Techniques” can then deliver unique information to enlighten atomic and electronic phenomenology on a nanoscopic scale, provided their signal will be fitted with the right model and then properly...
Prof.
Gregory Furman
(Ben Gurion University)
16/09/2010, 12:10
New Directions and Developments in Methodology
ORAL CONTRIBUTION
Quantum systems in an entangled state [1] can be used as a primary quantum information channel to perform computational [2], communicational [3], metrological [4, 5] and cryptographic tasks that are impossible for classical systems. These possible applications of entangled quantum states stimulate intensive research in the fields of generation and manipulation of them. Entangled states may...