Add to ORKGFor the sensitive high-resolution force- and field-sensing applications, the large-mass microelectromechanical system (MEMS) and optomechanical cavity have been proposed to realize the sub-aN/Hz1/2 resolution levels. In view of the optomechanical cavity-based force- and field-sensors, the optomechanical coupling is the key parameter for achieving high sensitivity and resolution. Here we demonstrate a chip-scale optomechanical cavity with large mass which operates at ≈77.7 kHz fundamental mode and intrinsically exhibiting large optomechanical coupling of 44 GHz/nm or more, for both optical resonance modes. The mechanical stiffening range of ≈58 kHz and a more than 100th-order harmonics are obtained, with which the free-running frequency inst...
The coupling between optical and mechanical degrees of freedom has been of broad interest for a long...
At the nanoscale, the optomechanical coupling increases thanks to a reduced optical/mechanical inter...
Optomechanical transduction has demonstrated its supremacy in probing nanomechanical displacements. ...
International audienceWe show all-optical operation of a VLSI optomechanical micro-resonator designe...
International audienceAtomic force microscopy (AFM) has been constantly supporting nanosciences and ...
High-quality-factor optical microresonators have emerged as a verstatile tool in studying light-matt...
On-chip refractive index sensing plays an important role in many fields, ranging from chemical, biom...
We develop a miniaturized electrostatically tunable optomechanical oscillator, whose frequencies can...
The radiation pressure of the large circulating optical power inside micro-scale high quality factor...
International audienceAtomic force spectroscopy and microscopy are invaluable tools to characterize ...
We develop a miniaturized electrostatically tunable optomechanical oscillator, whose frequencies can...
Nanoscale mechanical oscillators(1) are used as ultrasensitive detectors of force(2), mass(3) and ch...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
The coupling between optical and mechanical degrees of freedom has been of broad interest for a long...
At the nanoscale, the optomechanical coupling increases thanks to a reduced optical/mechanical inter...
Optomechanical transduction has demonstrated its supremacy in probing nanomechanical displacements. ...
International audienceWe show all-optical operation of a VLSI optomechanical micro-resonator designe...
International audienceAtomic force microscopy (AFM) has been constantly supporting nanosciences and ...
High-quality-factor optical microresonators have emerged as a verstatile tool in studying light-matt...
On-chip refractive index sensing plays an important role in many fields, ranging from chemical, biom...
We develop a miniaturized electrostatically tunable optomechanical oscillator, whose frequencies can...
The radiation pressure of the large circulating optical power inside micro-scale high quality factor...
International audienceAtomic force spectroscopy and microscopy are invaluable tools to characterize ...
We develop a miniaturized electrostatically tunable optomechanical oscillator, whose frequencies can...
Nanoscale mechanical oscillators(1) are used as ultrasensitive detectors of force(2), mass(3) and ch...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
The coupling between optical and mechanical degrees of freedom has been of broad interest for a long...
At the nanoscale, the optomechanical coupling increases thanks to a reduced optical/mechanical inter...
Optomechanical transduction has demonstrated its supremacy in probing nanomechanical displacements. ...