O. O. Soykal, Rusko Ruskov, Charles Tahan
Published 2011-06-08, updated 2013-02-26Version 3
A quantum mechanical superposition of a long-lived, localized phonon and a matter excitation is described. We identify a realization in strained silicon: a low-lying donor transition (P or Li) driven solely by acoustic phonons at wavelengths where high-Q phonon cavities can be built. This phonon-matter resonance is shown to enter the strongly coupled regime where the "vacuum" Rabi frequency exceeds the spontaneous phonon emission into non-cavity modes, phonon leakage from the cavity, and phonon anharmonicity and scattering. We introduce a micropillar distributed Bragg reflector Si/Ge cavity, where Q=10^5-10^6 and mode volumes V<=25*lambda^3 are reachable. These results indicate that single or many-body devices based on these systems are experimentally realizable.
Comments: Published PRL version. Note that the previous arXiv version has more commentary, figures, etc. Also see http://research.tahan.com/
Journal: Phys. Rev. Lett. 107, 235502 (2011)
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