46th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics
Volume 60, Number 7
Monday–Friday, June 8–12, 2015;
Columbus, Ohio
Session N3: Invited Session: Cavity QED in Solid State and Hybrid Systems
10:30 AM–12:30 PM,
Thursday, June 11, 2015
Room: Franklin AB
Chair: Pierre Meystre
Abstract ID: BAPS.2015.DAMOP.N3.4
Abstract: N3.00004 : Strong Atom-Light Interactions in Photonic Crystals
12:00 PM–12:30 PM
Preview Abstract
Abstract
Author:
Jeff Kimble
(Norman Bridge Laboratory of Physics 12-33 and Institute for Quantum Information and Matter, California Institute of Technology, Pasadena, CA 91125)
New paradigms for optical physics emerge with lattices of atoms trapped in one and two-dimensional photonic crystals [1-4]. Exemplary experimental platforms include photonic crystal waveguides [5-7] and cavities [8, 9]. Owing to their small optical loss and tight field confinement, these nanoscale dielectric devices are capable of mediating long-range atom-atom interactions using photons propagating in their guided modes. In a complimentary fashion, long-range interactions between photons can be mediated by an underlying lattice of atoms. Such systems have the potential to provide new tools for scalable quantum networks, quantum phases of light and matter, and quantum metrology. However, bringing this future of \textit{atom nanophotonics} to fruition requires the creation of an interdisciplinary toolkit for the control, manipulation, and interaction of atoms and photons with a complexity and scalability not currently possible. I will give an overview of the theoretical prospects for new physics and review experimental progress in this nascent field at the interfaces of nano-photonics, atomic physics, and quantum optics.
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[1] J. S. Douglas, H. Habibian, C.-L. Hung, A. V. Gorshkov, H. J. Kimble, and D. E. Chang, Nature Photonics \textbf{9}, 326 (2015).\\[0pt]
[2] For an introduction to this area, please refer to the video at http://phdcomics.com/comics/archive.php?comicid=1680.\\[0pt]
[3] A. Gonz\'alez-Tudela, C.-L. Hung, D. E. Chang, J. I. Cirac, and H. J. Kimble, Nature Photonics \textbf{9}, 320 (2015).\\[0pt]
[4] A. Gonz\'alez-Tudela, V. Paulisch, D. E. Chang, H. J. Kimble, and J. I. Cirac, (2015); available as arXiv:1504.07600.\\[0pt]
[5] S.-P. Yu, J. D. Hood, J. A. Muniz, M. J. Martin, R. Norte, C.-L. Hung, S. M. Meenehan, J. D. Cohen, O. Painter, and H. J. Kimble, Applied Physics Letters \textbf{104}, 111103 (2014).\\[0pt]
[6] A. Goban, C.-L. Hung, S. -P. Yu, J. D. Hood, J. A. Muniz, J. H. Lee, M. J. Martin, A. C. McClung, K. S. Choi, D. E. Chang, O. Painter, and H. J. Kimble, Nature Communications \textbf{5}, 3808 (2014).\\[0pt]
[7] A. Goban, C.-L. Hung, J. D. Hood, S.-P. Yu, J. A. Muniz, O. Painter, and H. J. Kimble, available at http://arxiv.org/abs/1503.04503.\\[0pt]
[8] J. D. Thompson, T. G. Tiecke, N. P. de Leon, J. Feist, A. V. Akimov, M. Gullans, A. S. Zibrov, V. Vuleti\'ic, and M. D. Lukin, Science \textbf{340}, 1202 (2013).\\[0pt]
[9] T. G. Tiecke, J. D. Thompson, N. P. de Leon, L. R. Liu, V. Vuleti\'c, and M. D. Lukin, Nature \textbf{508}, 241 (2014).
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2015.DAMOP.N3.4