106 research outputs found
Analysis of a MEMS-based ring oscillator
International audienceThis work introduces a MEMS oscillator composed exclusively of mechanical switches as logic components. The electromechanical model of the system is developed and the conditions for a periodic response are established
Modification of HF-treated silicon (100) surfaces by scanning tunneling microscopy in air under imaging conditions
The modification of HF-etched silicon (100) surface with a scanning tunneling microscope(STM) operated in air is studied for the first time in samples subjected to the standard HF etching without the follow-up rinsing in H2O. The modifications are produced in air under normal STM imaging conditions (V t =â1.4 V and I t =2 nA). The simultaneous acquisition of topographical, current image tunneling spectroscopy and local barrier-height images clearly shows that the nature of the modification is not only topographical but also chemical. The features produced with a resolution better than 25 nm are attributed to a tip-induced oxidation enhanced by the presence of fluorine on the surface
Decelerated sub-relativistic material with energy Injection
We investigate the evolution of the afterglow produced by the deceleration of
the non-relativistic material due to its surroundings. The ejecta mass is
launched into the circumstellar medium with equivalent kinetic energy expressed
as a power-law velocity distribution . The
density profile of this medium follows a power law with
the stratification parameter, which accounts for the usual cases of a
constant medium () and a wind-like medium (). A long-lasting central
engine, which injects energy into the ejected material as ()
was also assumed. With our model, we show the predicted light curves associated
with this emission for different sets of initial conditions and notice the
effect of the variation of these parameters on the frequencies, timescales and
intensities. The results are discussed in the Kilonova scenario.Comment: Presented at the 37th International Cosmic Ray Conference (ICRC2021),
Berlin, German
A theoretical model of an off-axis GRB jet
In light of the most recent observations of late afterglows produced by the
merger of compact objects or by the core-collapse of massive dying stars, we
research the evolution of the afterglow produced by an off-axis top-hat jet and
its interaction with a surrounding medium. The medium is parametrized by a
power law distribution of the form is the stratification
parameter and contains the development when the surrounding density is constant
() or wind-like (). We develop an analytical synchrotron
forward-shock model when the outflow is viewed off-axis, and it is decelerated
by a stratified medium. Using the X-ray data points collected by a large
campaign of orbiting satellites and ground telescopes, we have managed to apply
our model and fit the X-ray spectrum of the GRB afterglow associated to SN
2020bvc with conventional parameters. Our model predicts that its circumburst
medium is parametrized by a power law with stratification parameter .Comment: Presented at the 37th International Cosmic Ray Conference (ICRC2021),
Berlin, German
GRB Fermi-LAT Afterglows: Explaining Flares, Breaks, and Energetic Photons
The Fermi-LAT collaboration presented the second gamma-ray burst (GRB) catalog covering its first 10 years of operations. A significant fraction of afterglow-phase light curves in this catalog cannot be explained by the closure relations of the standard synchrotron forward-shock model, suggesting that there could be an important contribution from another process. In view of the above, we derive the synchrotron self-Compton (SSC) light curves from the reverse shock in the thick- and thin-shell regime for a uniform-density medium. We show that this emission could explain the GeV flares exhibited in some LAT light curves. Additionally, we demonstrate that the passage of the forward shock synchrotron cooling break through the LAT band from jets expanding in a uniform-density environment may be responsible for the late time (â10ÂČ s) steepening of LAT GRB afterglow light curves. As a particular case, we model the LAT light curve of GRB 160509A that exhibited a GeV flare together with a break in the long-lasting emission, and also two very high energy photons with energies of 51.9 and 41.5 GeV observed 76.5 and 242 s after the onset of the burst, respectively. Constraining the microphysical parameters and the circumburst density from the afterglow observations, we show that the GeV flare is consistent with an SSC reverse-shock model, the break in the long-lasting emission with the passage of the synchrotron cooling break through the Fermi-LAT band, and the very energetic photons with SSC emission from the forward shock, when the outflow carries a significant magnetic field (R_B â 30) and it decelerates in a uniform-density medium with a very low density (n = 4.554_(-1.121)^(+1.128) x 10â»âŽ cmâ»Âł
VHF band-pass filter based on a single CMOS-MEMS doubleended tuning fork resonator
AbstractThis paper presents a single Double-Ended Tuning Fork (DETF) MEMS resonator-based band-pass filter fabricated on a commercial standard CMOS technology. The accurate design of this resonator demonstrates the ability to perform filtering without the need of coupling multiple resonators. The main characteristic is to define the out-of-phase mode resonance frequency of the DETF smaller than the in-phase mode frequency. The electrical characterization shows that this stand-alone band-pass filter presents a 44.4MHz central frequency with a 0.6% bandwidth in air
Integrated tunneling sensor for nanoelectromechanical systems
Transducers based on quantum mechanical tunneling provide an extremely sensitive sensor principle, especially for nanoelectromechanical systems. For proper operation a gap between the electrodes of below 1nm is essential, requiring the use of structures with a mobile electrode. At such small distances, attractive van der Waals and capillary forces become sizable, possibly resulting in snap-in of the electrodes. The authors present a comprehensive analysis and evaluation of the interplay between the involved forces and identify requirements for the design of tunnelingsensors. Based on this analysis, a tunnelingsensor is fabricated by Si micromachiningtechnology and its proper operation is demonstrated
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