The results obtained since the beginning of the project have been disseminated in several scientific articles, two of them published in high-impact journals (Physical Review X, and Proceedings of the National Academy of Sciences). The most significant publication, which lays the foundations for the field of collective dissipation in atomic lattices and discusses the exponential improvement in the performance of a quantum memory is:
• A. Asenjo-Garcia, M. Moreno-Cardoner, A. Albrecht, H. J. Kimble, and D. E. Chang, Physical Review X, 7, 031024 (2017)
Theoretical and experimental results concerning collective atomic interactions mediated by photonic crystals are:
• Asenjo-Garcia, J. D. Hood, D. E. Chang, and H. J. Kimble, Physical Review A, 95, 033818 (2017).
• J. D. Hood, A. Goban, A. Asenjo-Garcia, M. Lu, S.-P. Yu, D. E. Chang, and H. J. Kimble, PNAS, 113, 10507 (2016).
Further articles regarding the realization of a 2D quantum memory and the influence of multilevel atomic structure in collective dipole interaction are:
• M. T. Manzoni, M. Moreno-Cardoner, A. Asenjo-Garcia, J. V. Porto, A. V. Gorshkov, and D. E. Chang, New Journal of Physics 20, 083048 (2018).
• E. Munro, A. Asenjo-Garcia, Y. Lin, L. C. Kwek, C. A. Regal, and D. E. Chang, Physical Review A, 98, 033815 (2018).
Two more manuscripts explore the extension of ideas on collective interactions to circuit quantum electrodynamics. Those are:
• L. Henriet, A. Albrecht, A. Asenjo-Garcia, P. Dieterle, O. J. Painter, and D. E. Chang, arXiv: 1803.02115 (2018), submitted to New Journal of Physics (2018).
• M. Mirhosseini, E. Kim, X. Zhang, A. Sipahigil, P. B. Dieterle, A. J. Keller, A. Asenjo-Garcia, D. E. Chang, and O. J. Painter, arXiv: arXiv:1809.09752 (2018), submitted to Nature (2018).
Besides the publications, the fellow has given several invited talks at international conferences, and seminars at universities including Columbia, Harvard, Rochester, Maryland, McGill, Waterloo, and Innsbruck.