Add to ORKGAn innovative tool has been developed to investigate in-situ monitoring of surface modification, which can be used in standard Atomic Force Microscopes (AFM). The device enables detection of topography modification on nanometer scale lateral- and subnanometer vertical resolution, which is important for reliability studies of MEMS and NEMS, where small moving parts may contact each other leading to wear. The novelty of the device is that surface modification (e.g. wear) is generated in a controlled way with a multifunctional cantilever and it is identified in-situ, the detection and the surface modification being decoupled but embedded in one and the same device
This thesis presents a novel RF MEMS resonator composed of an aluminum nitride transducer placed on ...
AbstractMicro-nanometrologically and topographic characterization of materials is important to deter...
Microelectromechanical systems (MEMS) are increasingly at our fingertips. To understand and thereby ...
An innovative tool has been developed to investigate in-situ monitoring of surface modification, whi...
An innovative technique has been developed to enable in situ monitoring of mechanical surface modifi...
A multifunctional tool which expands the application field of atomic force microscope-based surface ...
A new in-process atomic-force microscopy (AFM) based inspection is presented for nanolithography to ...
A multifunctional tool which expands the application field of atomic force microscope-based surface ...
We present the fabrication process of a tool that can be used in standard atomic force microscope (A...
The invention of the atomic force microscope allowed, for the first time, high resolution imaging of...
Atomic force microscopes can provide extremely high resolution imaging of surfaces; nevertheless due...
The atomic force microscope (AFM) promises to be a valuable tool for visualising and measuring the w...
This paper deals with a planar nanopositioning and -measuring machine, the so-called nanofabrication...
The focus of this work lies on investigations on a new Nano Fabrication Machine (NFM-100) with a mou...
This thesis presents a novel RF MEMS resonator composed of an aluminum nitride transducer placed on ...
This thesis presents a novel RF MEMS resonator composed of an aluminum nitride transducer placed on ...
AbstractMicro-nanometrologically and topographic characterization of materials is important to deter...
Microelectromechanical systems (MEMS) are increasingly at our fingertips. To understand and thereby ...
An innovative tool has been developed to investigate in-situ monitoring of surface modification, whi...
An innovative technique has been developed to enable in situ monitoring of mechanical surface modifi...
A multifunctional tool which expands the application field of atomic force microscope-based surface ...
A new in-process atomic-force microscopy (AFM) based inspection is presented for nanolithography to ...
A multifunctional tool which expands the application field of atomic force microscope-based surface ...
We present the fabrication process of a tool that can be used in standard atomic force microscope (A...
The invention of the atomic force microscope allowed, for the first time, high resolution imaging of...
Atomic force microscopes can provide extremely high resolution imaging of surfaces; nevertheless due...
The atomic force microscope (AFM) promises to be a valuable tool for visualising and measuring the w...
This paper deals with a planar nanopositioning and -measuring machine, the so-called nanofabrication...
The focus of this work lies on investigations on a new Nano Fabrication Machine (NFM-100) with a mou...
This thesis presents a novel RF MEMS resonator composed of an aluminum nitride transducer placed on ...
This thesis presents a novel RF MEMS resonator composed of an aluminum nitride transducer placed on ...
AbstractMicro-nanometrologically and topographic characterization of materials is important to deter...
Microelectromechanical systems (MEMS) are increasingly at our fingertips. To understand and thereby ...