110 research outputs found
Periodic ripples in suspended graphene
We study the mechanism of wrinkling of suspended graphene, by means of
atomistic simulations. We argue that the structural instability under edge
compression is the essential physical reason for the formation of periodic
ripples in graphene. The ripple wavelength and out-of-plane amplitude are found
to obey 1/4-power scaling laws with respect to edge compression. Our results
also show that parallel displacement of the clamped boundaries can induce
periodic ripples, with oscillation amplitude roughly proportional to the 1/4
power of edge displacement. The results are fundamental to graphene's
applications in electronics.Comment: 5 Figure
Electric charge enhancements in carbon nanotubes: Theory and experiments
We present a detailed study of the static enhancement effects of electric
charges in micron-length single-walled carbon nanotubes, using theoretically an
atomic charge-dipole model and experimentally electrostatic force microscopy.
We demonstrate that nanotubes exhibit at their ends surprisingly weak charge
enhancements which decrease with the nanotube length and increase with the
nanotube radius. A quantitative agreement is obtained between theory and
experiments.Comment: 6 Fi
Twisting Carbon Nanotubes: A Molecular Dynamics Study
We simulate the twist of carbon nanotubes using atomic molecular dynamic
simulations. The ultimate twist angle per unit length and the deformation
energy are calculated for nanotubes of different geometries. It is found that
the big tube is harder to be twisted while the small tube exhibits higher
ultimate twisting ratio. For multi-walled nanotubes, the zigzag tube is found
to be able to stand more deformation than the armchair one. We observed the
surface transformation during twisting. Formation of structural defects is
observed prior to fracture.Comment: 8 Figure
Correlation between structural and optical properties of WO3 thin films sputter deposited by glancing angle deposition
International audienceTungsten oxide WO3 thin films are prepared by DC reactive sputtering. The GLancing Angle Deposition method (GLAD) is implemented to produce inclined columnar structures. The incident angle α between the particle flux and the normal to the substrate is systematically changed from 0 to 80°. For incident angles higher than 50°, a typical inclined columnar architecture is clearly produced with column angles ÎČ well correlated with the incident angle α according to conventional relationships determined from geometrical models. For each film, the refractive index and extinction coefficient are calculated from optical transmittance spectra of the films measured in the visible region. The refractive index at 589 nm drops from n589 = 2.18 down to 1.90 as α rises from 0 to 80°, whereas the extinction coefficient reaches k589 = 4.27 Ă 10â3 for an incident angle α = 80°, which indicates that the films produced at a grazing incident angle become more absorbent. Such changes of the optical behaviors are correlated with changes of the microstructure, especially a porous architecture, which is favored for incident angles higher than 50°. Optical band gap Eg, Urbach energy Eu and birefringence În617, determined from optical transmittance measurements, are also influenced by the orientation of the columns and their trend is discussed taking into account the disorder produced by the inclined particle flux
Volume Dependence in Handel's Model of Quartz Crystal Resonator Noise
International audienceAlthough criticized by many, Handel's quantum model for 1/f noise remains the only model giving a quantitative estimation of the level of intrinsic 1/f noise in quartz crystal resonators that is compatible with the best experimental results. In this paper, we reconsider the volume dependence in this model. We first argue that an acoustic volume, representing the volume in which the vibration energy is trapped, should be used instead of the geometrical volume between the electrodes. Then, we show that because there is an implicit dependence of the quality factor of the resonator with its thickness, the net effect of Handel's formula is not an increase of noise proportionally to the thickness of the resonator, as could be naĂŻvely expected, but a net decrease when thickness increases. Finally, we show that a plot of Q4Sy versus the acoustic volume, instead of the usual Sy plot, could be useful to compare the quality of acoustic resonators having very different resonance frequencies
Etude de la production de jets dans le detecteur H1 a HERA, application a la determiation de alpha-s (Q2)
SIGLEAvailable from INIST (FR), Document Supply Service, under shelf-number : T 82743 / INIST-CNRS - Institut de l'Information Scientifique et TechniqueFRFranc
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