Sentences with phrase «microelectromechanical systems»
Microelectromechanical systems (MEMS) refers to miniaturized mechanical and electrical devices that usually have dimensions ranging from micrometers to millimeters. These systems are designed to combine tiny sensors, actuators, and electronics on a single chip, allowing them to perform various functions such as sensing, measuring, and controlling different physical phenomena at a microscopic level. Essentially, MEMS are small devices that use both mechanical and electronic components to do specific tasks. Full definition
As a student a decade ago, Bozkurt worked on microelectromechanical systems, the kinds of sensors that tell your smartphone which way is up and how fast it's moving, for example.
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Qualcomm's Mirasol display uses microelectromechanical system (MEMS) technology, which adjusts two conductive plates to either reflect light or absorb it for a series of screen subpixels.
I'd say the trend is going the other way: that the [silicon lithography] technology that has developed around the integrated circuit is now being adopted in several other areas, like microelectromechanical systems, microfluidic devices, chemical labs on a chip, and more.
The team, led by mechanical engineer Liwei Lin, placed microelectromechanical systems, or MEMS, in tiny bridges on an etched silicon chip.
In order to qualify for participation in the Star Tiger programme, applicants should have experience in one or more of the following research areas: lithography, microelectromechanical systems fabrication, radio frequency (RF) system design, optical and RF photonic bandgap design, test and measurement, charge - coupled device imaging, packaging / micro / self - assembly, mechanical design, materials sciences, solid state physics, or general physics.
Further investigations planned at the TU Darmstadt on this material system include temperature dependent studies using a recently acquired DENSsolutions microelectromechanical systems (MEMS) chip - based in situ TEM holder.
Materials scientists working to build tiny machines called microelectromechanical systems (MEMS) struggle with surface interactions, called van der Waals forces, that can make nanomaterials sticky to the point of permanent adhesion, a phenomenon known as «stiction».
Over the course of seven years (from 2004 to 2011), chip giant Qualcomm bought two different startups working on two very different microelectromechanical systems (MEMS)- based displays: the reflective iMOD technology originally developed by Iridigm, and a direct - view micro-shutter display from Boston - area Pixtronix.
Key development engineer of high volume manufacturing and complex device fabrication flows for passive and active microelectromechanical systems (MEMS) devices.
Having the IMOD, Mirasol - based display that works on microelectromechanical systems (MEMS) sensors, the Qualcomm Toq smartwatch has a lot to help the users in making the life easier.
The team's finest hour came when members engineered a MEMS, a microelectromechanical system with moving parts usually designed to perform a switching task.
Such capabilities position the technique for potential use in tissue engineering and industrial applications, such as biomedical devices, energy storage and microelectromechanical systems.
The results, reported by a Northwestern University and University of Illinois research team, could be useful in tissue engineering and microelectromechanical systems.
The combination of these properties makes graphene an ideal material for nanoelectromechanical systems (NEMS), which are scaled - down versions of the microelectromechanical systems (MEMS) used widely for sensing of vibration and acceleration.
In a break from the design principle that has been followed by all other measuring devices to date, a research team at TU Wien has now developed a silicon - based sensor as a microelectromechanical system (MEMS).
Michael Roukes, a physicist developing nanoscale tools for bioscience and medicine, says «Room at the Bottom» anticipated a host of important technologies and scientific fields, including spin electronics («spintronics»), microelectromechanical systems (MEMS), electron - beam and ion - beam fabrication and much more.
There are other technologies related to electronic ink on the horizon that promise high - quality color as well: DisplaySearch's Young cites Qualcomm's microelectromechanical system (MEMS) technology that provides saturated color, but consumes more power than e-paper.
Fabricated high surface area 3D carbon microstructures by microfabrication process - carbon - microelectromechanical systems (C - MEMS) technique.