| 28. |
California State University Long Beach, Nuclear
Spin Dynamics in Semiconductor Nanostructures, March
2008, Long Beach (USA) |
| 27. |
APS March Meeting,
Nuclear Spin Dynamics in
Semiconductor Nanostructures, March
2008, New Orleans (USA) |
| 26. |
California State University Fullerton, Twenty
Years of High Temperature Superconductivity, April
2007, Fullerton (USA) |
| 25. |
California State University Fullerton, Optoelectronic Control of
Nuclear Magnetization in Semiconductor Nanostructures, February
2006, Fullerton (USA) |
| 24. |
University of Basel, Optoelectronic Control of Nuclear Magnetization in
Semiconductor Nanostructures, November 2005, Basel (Switzerland) |
| 23. |
NATO ASI "Manipulating Quantum Coherence in Solid State Systems",
Nuclear spin dynamics in semiconductor heterostructures, August
2005, Cluj-Napoca (Romania) (invited lecturer) |
| 22. |
Max Plank Institute for Physics of Complex Systems,
Optoelectronic Control of Nuclear Magnetization in Semiconductor
Nanostructures, May 2004, Dresden (Germany) |
| 21. |
University of North Dakota, Optoelectronic Control of Nuclear
Magnetization in Semiconductor Nanostructures, April 2004 |
| 20. |
APS March Meeting, Electric field tunability of nuclear and
electronic spin dynamics due to the hyperfine interaction, March
2004, Montreal (Canada) (invited talk) |
| 19. |
SPINTECH II, Nuclear spin dynamics in parabolic quantum wells,
August 2003, Brugge (Belgium) (oral presentation) |
| 18. |
Pennsylvania State University, Electric field tunability of
nuclear spin dynamics due to the hyperfine interaction in semiconductor
nanostructures, May 2003 |
| 17. |
MRS Spring Meeting, Nuclear spin dynamics in parabolic quantum
wells, April 2003, San Francisco (oral presentation) |
| 16. |
APS March Meeting, Nuclear spin dynamics due to the hyperfine
interaction in parabolic quantum wells, March 2003, Austin (oral
presentation) |
| 15. |
University of Iowa, Spin decoherence due to hyperfine interaction
in semiconductor nanostructures, November 2002 |
| 14. |
The National Romanian Conference in Theoretical Physics, Spin
decoherence due to the hyperfine interaction in semiconductor
nanostructures, September 13-16 2002, Bucharest (Romania) (oral
presentation) |
| 13. |
APS March Meeting, Electron spin decoherence due to the hyperfine
interaction in semiconductor nanostructures, March 2002 ,
Indianapolis (oral presentation) |
| 12. |
APS March Meeting, Collective modes in a bilayer spin-polarized
system, March 2001, Seattle (oral presentation) |
| 11. |
"Babes-Bolyai" University of Cluj (Romania), Correct Diagrammatic
Expansion between Weak and Strong Coupling Regimes in Two
Dimensional Fermionic Systems, January 2002
|
| 10. |
The University of Iowa, Correct Diagrammatic
Expansion between Weak and Strong Coupling Regimes in Two
Dimensional Fermionic Systems, October 2001
|
| 9. |
Naval Research Laboratory, Collective modes in a bilayer quasi-two-dimensional spin polarized electron
gas, June 2001
|
| 8. |
University of Alabama-Tuscaloosa, Correct Diagrammatic Expansion between Weak and Strong Coupling Regimes in Two
Dimensional Fermionic Systems, April 2001
|
| 7. |
Georgia Tech, Relevance of the pair-pair interaction in the crossover from weak to strong coupling interaction in 2D fermionic
attractive systems, April 2001
|
| 6. |
University of Miami, Relevance of the pair-pair interaction in the crossover
from weak to strong coupling interaction in 2D fermionic attractive
systems, April 2001
|
| 5. |
University of Missouri - Columbia, The role of the attractive interaction in two dimensional fermionic
systems, February 2001
|
| 4. |
Clemson University, Crossover phenomena in two
dimensional fermionic systems, October 2000
|
| 3. |
University of Georgia, Evolution from weak to
strong coupling regime in a two dimensional fermionic system,
September 2000
|
| 2. |
University of Georgia, A non-Fermi liquid
approach for HTSC materials.The Anderson model., December 1999
|
| 1. |
University of Camerino (Italy), Non-Fermi
liquid models for HTSC materials, December 1999
|
