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Communicate

Details

Name Sunil Bhave
Groups Cornell University
Locations New York, United States
Related Organizations: None
Department None
Title None
Website None
 

Projects

Project Silicon Resonator with High Q Factor and High Frequency

This robust invention requires only a homogeneous single-crystalline device, allowing for the design of CMOS-compatible MEMS

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Primary: Cornell University
Date posted: May 30, 2012
Project Hot N' Cold Optical Gyroscope

The invention is an optomechanical gyroscope to relieve the bandwidth and sensitivity constraints of MEMS

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Primary: Cornell University
Date posted: Jul 3, 2012
Project Acceleration Sensing Using an Integrated Waveguide Cavity

The invention is a cavity-enhanced optomechanical accelerometer which uses waveguided light to sense proof mass displacement

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Primary: Cornell University
Date posted: Jul 3, 2012
Project The Resonant Body Transistor and Oscillator

A novel resonant body transistor (RBT) comprising a bulk-mode resonator with side-wall dielectric for capacitive drive and

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Primary: Cornell University
Date posted: Jul 3, 2012
Project Channel-select RF MEMS Filter with Digitally Programmable Bandwidth, Frequency

A bandwidth-tunable RF MEMS filter using a series-coupled array of dielectrically transduced square-extensional mode resonators has been

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Primary: Cornell University
Date posted: Jul 3, 2012
Project Silicon Opto-Acoustic Oscillator

A new silicon bar resonator has been developed with applications as a Resonant Acousto-Optic Modulator, a Radiation Pressure

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Primary: Cornell University
Date posted: Aug 14, 2012
Project Single-Ended to Differential Micromechanical Filter

A single 3-ended input to balanced output 425 MHz mechanically coupled electromechanical filter is presented.

Primary: Cornell University
Date posted: Jul 24, 2012
Project MEMS Filter with Voltage Tunable Center Frequency and Bandwidth

An exciting new low cost, efficient and high Q microelectromechanical system (MEMS) filter with a voltage tunable

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Primary: Cornell University
Date posted: Jul 25, 2012
Project Low-power GPS Processor

The technology is an asynchronous GPS baseband processor architecture that minimizes power consumption while providing

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Primary: Cornell University
Date posted: Nov 20, 2012