Add to ORKGAbstract: An optically thin resonator suspended over a substrate and illuminated with a laser forms an interference field that couples deflection of the resonator to absorption within it. For high enough laser powers, such resonators have been shown to be interferometrically transduced to stable oscillations due to the feedback between heating and deflection. The coupling between thermal stresses, deflection, and absorption is the driving mechanism of such oscillations. In this work we study the deflection of doubly supported micro-beams under steady state heating, and illustrate the role of thermal strains and deformation of the beam supports on deflection and ultimately on the laser power level needed to induce stable oscillations. 1. Int...
We experimentally study forced and self-excited oscillations of an optomechanical cavity, which is f...
The thermoelastic dynamic response of a clamped Bernoulli beam was studied when it was irradiated by...
This thesis presents a study of thin, planar, radio frequency MEMS resonators that are shown to sel...
In this study, the vibration phenomenon during pulsed laser heating of a micro-beam is investigated....
Abstract—The nonlinear dynamics of micromechanical oscil-lators are explored experimentally. Devices...
AbstractIn this study, the vibration phenomenon during pulsed laser heating of a micro-beam is inves...
The small size and low damping of MEMS oscillators give rise to phenomena that are not observed rout...
We examine the dynamics of nanoscale bridge resonators fabricated from SOI wafers. When illuminated ...
The vibration phenomenon during pulsed laser heating of micro-beams is investigated. The beam is mad...
We examine the dynamics of nanoscale bridge resonators fabricated from SOI wafers. When illuminated ...
This article employs the classical Euler–Bernoulli beam theory in connection with Green–Naghdi’s gen...
This paper investigates the three-dimensional motion characteristics of perfect and imperfect Timosh...
We resolve the thermal motion of a high-stress silicon nitride nanobeam at frequencies far below its...
In the case of ultra-short-pulsed laser heating, two effects become domineering. One is the non-Four...
Nanoscale resonators whose motion is measured through laser interferometry are known to exhibit stab...
We experimentally study forced and self-excited oscillations of an optomechanical cavity, which is f...
The thermoelastic dynamic response of a clamped Bernoulli beam was studied when it was irradiated by...
This thesis presents a study of thin, planar, radio frequency MEMS resonators that are shown to sel...
In this study, the vibration phenomenon during pulsed laser heating of a micro-beam is investigated....
Abstract—The nonlinear dynamics of micromechanical oscil-lators are explored experimentally. Devices...
AbstractIn this study, the vibration phenomenon during pulsed laser heating of a micro-beam is inves...
The small size and low damping of MEMS oscillators give rise to phenomena that are not observed rout...
We examine the dynamics of nanoscale bridge resonators fabricated from SOI wafers. When illuminated ...
The vibration phenomenon during pulsed laser heating of micro-beams is investigated. The beam is mad...
We examine the dynamics of nanoscale bridge resonators fabricated from SOI wafers. When illuminated ...
This article employs the classical Euler–Bernoulli beam theory in connection with Green–Naghdi’s gen...
This paper investigates the three-dimensional motion characteristics of perfect and imperfect Timosh...
We resolve the thermal motion of a high-stress silicon nitride nanobeam at frequencies far below its...
In the case of ultra-short-pulsed laser heating, two effects become domineering. One is the non-Four...
Nanoscale resonators whose motion is measured through laser interferometry are known to exhibit stab...
We experimentally study forced and self-excited oscillations of an optomechanical cavity, which is f...
The thermoelastic dynamic response of a clamped Bernoulli beam was studied when it was irradiated by...
This thesis presents a study of thin, planar, radio frequency MEMS resonators that are shown to sel...