Add to ORKG© 2014 American Chemical Society. We predict that an ensemble of organic dye molecules with permanent electric dipole moments embedded in a microcavity can lead to strong optical nonlinearities at the single-photon level. The strong long-range electrostatic interaction between chromophores due to their permanent dipoles introduces the desired nonlinearity of the light-matter coupling in the microcavity. We develop a semiclassical model to obtain the absorption spectra of a weak probe field under the influence of strong exciton-photon coupling with the cavity field. Using realistic parameters, we demonstrate that a cavity field with an average photon number near unity can significantly modify the absorptive and dispersive response of the med...
Strongly coupled optical microcavities containing different exciton states permit the creation of hy...
University of Minnesota Ph.D. dissertation. December 2012. Major: Material Science and Engineering. ...
Emitters placed in an optical cavity experience an environment that changes their coupling to light....
© 2014 American Chemical Society. We predict that an ensemble of organic dye molecules with permanen...
We predict that an ensemble of organic dye molecules with permanent electric dipole moments embedded...
We predict that an ensemble of organic dye molecules with permanent electric dipole moments embedded...
We have fabricated organic semiconductor microcavities having an extended optical path-length (up to...
We report the incorporation of thin films of a cyanine dye J aggregate into a versatile, length tuna...
Semiconductor microcavities represent a rich playground for the investigation and exploitation of fu...
Light and matter can be unified under the strong coupling regime, creating superpositions of both, c...
The photophysics of planar microcavities which employ organic materials as the optically resonant me...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
We study hybrid organic-inorganic microcavities in the strong coupling regime. The optically resonan...
Photon emitters placed in an optical cavity experience an environment that changes how they are coup...
Under the right conditions, cavity polaritons form a macroscopic condensate in the ground state. The...
Strongly coupled optical microcavities containing different exciton states permit the creation of hy...
University of Minnesota Ph.D. dissertation. December 2012. Major: Material Science and Engineering. ...
Emitters placed in an optical cavity experience an environment that changes their coupling to light....
© 2014 American Chemical Society. We predict that an ensemble of organic dye molecules with permanen...
We predict that an ensemble of organic dye molecules with permanent electric dipole moments embedded...
We predict that an ensemble of organic dye molecules with permanent electric dipole moments embedded...
We have fabricated organic semiconductor microcavities having an extended optical path-length (up to...
We report the incorporation of thin films of a cyanine dye J aggregate into a versatile, length tuna...
Semiconductor microcavities represent a rich playground for the investigation and exploitation of fu...
Light and matter can be unified under the strong coupling regime, creating superpositions of both, c...
The photophysics of planar microcavities which employ organic materials as the optically resonant me...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
We study hybrid organic-inorganic microcavities in the strong coupling regime. The optically resonan...
Photon emitters placed in an optical cavity experience an environment that changes how they are coup...
Under the right conditions, cavity polaritons form a macroscopic condensate in the ground state. The...
Strongly coupled optical microcavities containing different exciton states permit the creation of hy...
University of Minnesota Ph.D. dissertation. December 2012. Major: Material Science and Engineering. ...
Emitters placed in an optical cavity experience an environment that changes their coupling to light....