Carrier mobility in advanced channel materials - RWTH
... and the lower surface roughness the minimum thickness increases to tmin= 1.2 nm on the practical SiO2 gate oxide. On the other hand, Gou et al. has observed leakage current density higher than 1 A/cm2 on MOS capacitors with SiO2 thickness below 1.5 nm [15]. For MOSFETs with SiO2 thinner than 1.2 nm ...
... and the lower surface roughness the minimum thickness increases to tmin= 1.2 nm on the practical SiO2 gate oxide. On the other hand, Gou et al. has observed leakage current density higher than 1 A/cm2 on MOS capacitors with SiO2 thickness below 1.5 nm [15]. For MOSFETs with SiO2 thinner than 1.2 nm ...
Particle Sizing by Static Laser Light Scattering
... share some characteristics and can be studied using the same theories, but only in limited cases. Although similar in some respects, there are considerably more differences than similarities between sound waves and electromagnetic waves. The same holds true when studying details of electromagnetic w ...
... share some characteristics and can be studied using the same theories, but only in limited cases. Although similar in some respects, there are considerably more differences than similarities between sound waves and electromagnetic waves. The same holds true when studying details of electromagnetic w ...
Ultrafast Electron Diffraction (UED)
... femtosecond laser pulse to initiate the reaction and ultrashort electron pulses to probe the ensuing structural change in the molecular sample (Fig. 1). The resulting electron diffraction patterns are then recorded on a CCD camera. This sequence of pulses is repeated, timing the electron pulse to ar ...
... femtosecond laser pulse to initiate the reaction and ultrashort electron pulses to probe the ensuing structural change in the molecular sample (Fig. 1). The resulting electron diffraction patterns are then recorded on a CCD camera. This sequence of pulses is repeated, timing the electron pulse to ar ...
Experiment and simulation of mixed flows in a trapezoidal
... In the past two decades, microchannels have attracted increasing attention in ‘‘lab-on-a-chip’’ devices. Unlike capillaries, microchannels can be formed to build complicated geometries. Commonly used microchannel fabrication techniques are physical etching, chemical etching, soft lithography or a co ...
... In the past two decades, microchannels have attracted increasing attention in ‘‘lab-on-a-chip’’ devices. Unlike capillaries, microchannels can be formed to build complicated geometries. Commonly used microchannel fabrication techniques are physical etching, chemical etching, soft lithography or a co ...