Add to ORKGIn this paper, the first fiber-coupled no-moving-parts scanning heterodyne interferometer design using a single acoustooptic device (AOD) is reported. The design features a high-stability inline reflective architecture with free-space-scanned minimally invasive sensing via a multizone reflective sensor chip. The common path fiber interconnection allows robust remoting of the compact sensing front end. A proof-of-concept sensing experiment measuring voltage-dependent birefringence is successfully conducted using a voltage-controlled nematic liquid crystal (NLC) sensor chip. The system features a 4.69-dB optical loss, a 200-MHz output frequency, and a 1550-nm eye-safe operation wavelength. Applications for the system include any fiber-remoted...
An all-fiber-optic hydrophone has been designed, constructed and tested. The fiber system consists o...
The advancement of a compact optomechanical inertial sensor with ultra-high acceleration sensitivity...
Most full-field heterodyne interferometry systems are based on complex electro-mechanical scanning d...
In this paper, the first fiber-coupled no-moving-parts scanning heterodyne interferometer design usi...
In this paper, the first fiber-coupled no-moving-parts scanning heterodyne interferometer design usi...
Measurement of refractive index, surface quality and temperature of the process materials in defense...
Measurement of refractive index, surface quality and temperature of the process materials in defense...
Proposed and demonstrated is an angstrom level optical path length (OPL) detection sensitivity polar...
To the best of our knowledge, for the first time is proposed and demonstrated an Angstrom level opti...
Compact, high performance, scanning heterodyne optical interferometers for interferometric phase-bas...
Compact, high performance, scanning heterodyne optical interferometers are introduced for interferom...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
© 2015 Wiley Periodicals, Inc. Two tunable interferometers based on photonic crystal fibers (PCF) an...
Compact, high performance, scanning heterodyne optical interferometers are introduced for interferom...
Precision displacement laser interferometry is crucial in various applications such as microlithogra...
An all-fiber-optic hydrophone has been designed, constructed and tested. The fiber system consists o...
The advancement of a compact optomechanical inertial sensor with ultra-high acceleration sensitivity...
Most full-field heterodyne interferometry systems are based on complex electro-mechanical scanning d...
In this paper, the first fiber-coupled no-moving-parts scanning heterodyne interferometer design usi...
In this paper, the first fiber-coupled no-moving-parts scanning heterodyne interferometer design usi...
Measurement of refractive index, surface quality and temperature of the process materials in defense...
Measurement of refractive index, surface quality and temperature of the process materials in defense...
Proposed and demonstrated is an angstrom level optical path length (OPL) detection sensitivity polar...
To the best of our knowledge, for the first time is proposed and demonstrated an Angstrom level opti...
Compact, high performance, scanning heterodyne optical interferometers for interferometric phase-bas...
Compact, high performance, scanning heterodyne optical interferometers are introduced for interferom...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
© 2015 Wiley Periodicals, Inc. Two tunable interferometers based on photonic crystal fibers (PCF) an...
Compact, high performance, scanning heterodyne optical interferometers are introduced for interferom...
Precision displacement laser interferometry is crucial in various applications such as microlithogra...
An all-fiber-optic hydrophone has been designed, constructed and tested. The fiber system consists o...
The advancement of a compact optomechanical inertial sensor with ultra-high acceleration sensitivity...
Most full-field heterodyne interferometry systems are based on complex electro-mechanical scanning d...