QO/AMO Seminars Past Events 2012 /
05
Nov
2012
4 p.m.
- 5 p.m.
MP1115, 60 St.George Street
Olga Smirnova
Time-resolving tunneling dynamics
11
Sep
2012
11:10 a.m.
- noon
60 St.George Street, MP 606
Nir Bar-Gill
NV centers in diamond: from coherence to spin bath dynamics
10
Sep
2012
11:10 a.m.
- noon
60 St. George Street MP 606
Arturo Lezama
Coherent Light-Atom Interaction: From semi-classical to quantum
07
Sep
2012
11:10 a.m.
- noon
60 St. George Street MP 408
Anna Sanpera
The entanglement spectrum in many-body ultracold bosonic gases
10
Aug
2012
11:10 a.m.
- noon
3rd Floor Stewart Library, Fields Institute, 222 College Street, Toronto
Ryo Okamoto
Demonstration of Adaptive Quantum Estimation with Photons
08
Aug
2012
11:10 a.m.
- noon
60 St. George St. MP 606
Morgan Mitchell
Atomic Quantum Metrology
16
Jul
2012
11:10 a.m.
- noon
60 St. George Street, MP 606
Scott Beattie
Spinor superflow in an annular BEC
29
Jun
2012
11:10 a.m.
- noon
3rd Floor Stewart Library, Fields Institute, 222 College Street, Toronto
Michael Revzen
Classical and Quantum State Reconstruction
15
Jun
2012
11 a.m.
- 12:30 p.m.
60 St. George Street, MP 606
Markus B. Raschke
Ultrafast nano-optics with optical antennas
04
Jun
2012
11:10 a.m.
- noon
60 St. George St. MP 606
Prof. Holger Hofmann
Weak measurements and quasi-realities: explaining the paradoxical statistics of quantum systems
16
May
2012
12:10 p.m.
- 1:25 p.m.
60 St. George Street, MP 606
Alex Hayat
Interaction of light with solid-state condensates
04
May
2012
11 a.m.
- noon
3rd Floor Stewart Library, Fields Institute, 222 College Street, Toronto
Seth Lloyd
Optimizing quantum transport
30
Apr
2012
11:10 a.m.
- noon
60 St. George Street, MP 606
Markus A. Schmidt
Nanophotonic devices in fiber form: from plasmonics towards nonlinear optics
26
Mar
2012
11:10 a.m.
- noon
60 St. George Street, MP 606
Lindsay LeBlanc
Superfluid Hall effect for a BEC in a synthetic magnetic field
10
Feb
2012
11:10 a.m.
- noon
3rd Floor Stewart Library, Fields Institute, 222 College Street, Toronto
Stefan Trotzky
Creating, manipulating and detecting entangled spin pairs in optical superlattices