Add to ORKGWe present the fabrication and characterization of an artificial crystal structure formed from a thin film of silicon that has a full phononic band gap for microwave X-band phonons and a two-dimensional pseudo-band gap for near-infrared photons. An engineered defect in the crystal structure is used to localize optical and mechanical resonances in the band gap of the planar crystal. Two-tone optical spectroscopy is used to characterize the cavity system, showing a large coupling (g_0/2π≈220 kHz) between the fundamental optical cavity resonance at ω_o/2π=195 THz and colocalized mechanical resonances at frequency ω_m/2π≈9.3 GHz
© 2010 Optical Society of AmericaThe definitive version of this paper is available at:http://dx.doi....
AbstractPhoxonic crystals are dual phononic/photonic crystals exhibiting simultaneously band gaps fo...
In the field of quantum computation and communication there is a compelling need for quantum-coheren...
We present the fabrication and characterization of an artificial crystal structure formed from a thi...
We demonstrate simultaneous strong confinement and interaction of photons and phonons in a quasi two...
We demonstrate simultaneous strong confinement and interaction of photons and phonons in a quasi two...
A fully planar two-dimensional optomechanical crystal formed in a silicon microchip is used to creat...
A fully planar two-dimensional optomechanical crystal formed in a silicon microchip is used to creat...
In this paper we study and design quasi-2D optomechanical crystals, waveguides, and resonant cavitie...
Periodicity in materials yields interesting and useful phenomena. Applied to the propagation of ligh...
Periodicity in materials yields interesting and useful phenomena. Applied to the propagation of ligh...
We demonstrate microwave frequency mechanical modes of optomechanical crystals having arbitrarily s...
We present the design and characterization of a quasi-two-dimensional optomechanical crystal cavity....
AbstractPhotonic crystals (PhCs) are artificial materials with a permittivity which is a periodic fu...
We present the design and characterization of a quasi-two-dimensional optomechanical crystal cavity....
© 2010 Optical Society of AmericaThe definitive version of this paper is available at:http://dx.doi....
AbstractPhoxonic crystals are dual phononic/photonic crystals exhibiting simultaneously band gaps fo...
In the field of quantum computation and communication there is a compelling need for quantum-coheren...
We present the fabrication and characterization of an artificial crystal structure formed from a thi...
We demonstrate simultaneous strong confinement and interaction of photons and phonons in a quasi two...
We demonstrate simultaneous strong confinement and interaction of photons and phonons in a quasi two...
A fully planar two-dimensional optomechanical crystal formed in a silicon microchip is used to creat...
A fully planar two-dimensional optomechanical crystal formed in a silicon microchip is used to creat...
In this paper we study and design quasi-2D optomechanical crystals, waveguides, and resonant cavitie...
Periodicity in materials yields interesting and useful phenomena. Applied to the propagation of ligh...
Periodicity in materials yields interesting and useful phenomena. Applied to the propagation of ligh...
We demonstrate microwave frequency mechanical modes of optomechanical crystals having arbitrarily s...
We present the design and characterization of a quasi-two-dimensional optomechanical crystal cavity....
AbstractPhotonic crystals (PhCs) are artificial materials with a permittivity which is a periodic fu...
We present the design and characterization of a quasi-two-dimensional optomechanical crystal cavity....
© 2010 Optical Society of AmericaThe definitive version of this paper is available at:http://dx.doi....
AbstractPhoxonic crystals are dual phononic/photonic crystals exhibiting simultaneously band gaps fo...
In the field of quantum computation and communication there is a compelling need for quantum-coheren...