1- |
Gong
Shangqing (Kaiserslautern)
Quantum logic gate via an adiabatic passage technique in a ladder
atom-cavity QED system |
2- |
Yorick
Hardy (Auckland)
Classical and quantum computing with C++ and Java simulations |
3-
|
Andreas
K. Huettel (Muenchen)
Semiconductor quantum dots as qubits |
4-
|
Viv
Kendon (London)
Entanglement in arrays of qubits |
5- |
Gui
Lu Long (Tsinghua)
Phase matching in quantum searching: theory and NMR experiments |
6- |
Patricia R. Levstein (Cordoba)
Decoherence in coupled spin systems: a nuclear magnetic resonance
approach |
7- |
Walter
Strunz (Essen)
Decoherence and robust state dynamics in open quantum systems |
8- |
Joshua
Wilkie (Burnaby)
Microscopic dissipation in media with memory |
9- |
Hayato
Nakano (Kanagawa)
Decoherence and error correction for quantum information on coupled
qubits |
10- |
Horacio Pastawski (Cordoba)
Decay of Loschmidt echo as a sensor for the unpredictability of the
quantum phase in classically chaotic systems |
11- |
Marko
Znidaric (Ljubljana)
Can quantum chaos enhance stability of quantum computation? |
12- |
Henning Schomerus (Dresden)
Limits to error correction in quantum chaos |
13- |
Simone
Montangero (Como)
Quantum computing of the sawtooth map |
14- |
Marcos
Saraceno (Buenos Aires)
Quantum algorithms in phase space |
15- |
Benjamin
Levi (Toulouse)
Quantum computing of kicked rotator |
16- |
Alexander Iomin (Haifa)
Quantum localization of Levy flights in a chaotic system |
17- |
Sandro
M. Wimberger (Como)
Mixed phase space vs. quantum localization |
18- |
Marcello
Terraneo (Como)
Quantum fractal fluctuations |
19- |
Marco
Frasca (Roma)
Quantum kicked dynamics in strong laser-atom interaction |
20- |
Thomas
Clausen (Middletown)
Microwave ionization of hydrogen Rydberg atoms |
21- |
Yuri
Dabaghian (Middletown)
1D quantum chaos solved |
22- |
Deirdre
Kilbane (Maynooth)
Chaos in weakly chaotic driven systems |
23- |
Jose'
Lages (Toulouse)
Effect of disorder on coherent propagation of Cooper pairs |
24- |
Imre
Varga (Marburg)
On the statistics and dynamics of thermalization in finite, interacting, disordered fermionic systems |
25- |
Alexei
Chepelianskii (Toulouse)
Quantum chaos in quantum networks |
26- |
Luis
Benet (Heidelberg)
Non-ergodic behaviour in the bosonic embedded gaussian ensembles of
random matrices |
27- |
Bernhard
Mehlig (Gothenburg)
Collective versus single-particle effects in the optical spectra of
finite electronic quantum systems |
28- |
Bambi
Hu (Hong Kong)
Quantum Frenkel-Kontorova model |
29- |
Jaewan
Kim (Taejon)
General scheme for quantum teleportation |
30- |
Florian Sobieczky (Berlin)
Well-posed image segmentation |
31- |
Patrick Navez (Como)
Statistical confidentiality test for a quantum transmission using continuous variables |
32- |
Colin Paul Gloster (Dublin)
A reader's impression of quantum information processing books |
The poster walls have the following size: height=180cm, width=95cm
For poster oral presentation everyone has 2 minutes to present the problem
and the main results
in no more than 2 transparencies