| Double electromagnetically induced transparency and its application in quantum information University of Calgary | Publication | 2006-08-01 | Z. Wang, K. Marzlin, B. C. Sanders |
| Giant nonlinearities and double electromagnetically induced transparency in Rb University of Calgary | Presentation | 2006-02-25 | Z. Wang, K. Marzlin, B. C. Sanders |
| Giant cross-phase modulation in double electromagnetically induced transparency and its applications University of Calgary | Presentation | 2008-08-23 | Z. Wang, K. Marzlin, S. Moiseev, B. C. Sanders |
| Large cross phase modulation with DEIT system University of Calgary | Presentation | 2006-08-18 | Z. Wang |
| Giant optical nonlinearities using double electromagnetically induced transparency in Rubidium University of Calgary | Presentation | 2007-09-26 | A. MacRae, Z. Wang, K. Marzlin, A. Lvovsky |
| Large cross-phase modulation between slow co-propagating weak pulse in rubidium University of Calgary | Presentation | 2006-08-13 | B. C. Sanders, Z. Wang, K. Marzlin |
| Giant cross-phase modulation for two slowed co-propagating pulses University of Calgary | Presentation | 2008-07-01 | B. C. Sanders, Z. Wang, K. Marzlin, S. Moiseev |
| Giant nonlinearity with double-EIT in rubidium University of Calgary | Presentation | 2005-10-16 | B. C. Sanders, Z. Wang, K. Marzlin |
| Giant optical nonlinearities between two matched pulsesOne of the primary limitations of nonlinear optics is that relatively high intensities are needed to produce a noticeable effect. However, in an atomic system with electromagnetically induced transparency (EIT) it is possible to observe nonlinearities at light levels as low as a few photons per atomic cross section [1]. Implementation of the EIT-based nonlinearity with pulsed light may however be challenging as it requires the interacting pulses to propagate at equal group velocities. Recently, a scheme satisfying this requirement was proposed which employs double EIT in atomic Rubidium-87 [2]. We report on our recent progress towards experimentally realizing this scheme. We have successfully demonstrated a double EIT system in which two separate pulses may be simultaneously slowed or stored. By applying a large, homogenous magnetic field across the atomic vapor, thus splitting the atomic levels, we create a large nonlinear interaction in the form of XPM. *References: [1]: H. Schmidt, and V. Imamoglu, Optics Letters 21 23 1996 [2]: Z.B. Wang, K.P. Marzlin, B.C. Sanders, Phys. Rev. Lett. 97 06, 2006 University of Calgary | Presentation | 2008-05-30 | A. MacRae, G. Campbell, Z. Wang, K. Marzlin, B. C. Sanders, A. Lvovsky |
| Few-photon all-optical switching University of Calgary | Presentation | 2010-07-13 | B. C. Sanders, A. Kamli, K. Marzlin, S. Moiseev, Z. Wang |
| Uncover topology by quantum quench dynamics University of Calgary | Publication | 2018-01-01 | W. Sun, C. Yi, B. Wang, W. Zhang, B. C. Sanders, X. Xu, Z. Wang, J. Schmiedmayer, Y. Deng, X. Liu, S. Chen, J. Pan |
