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- 实验方案
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The coherent THz Smith-Purcell radiation from a three-dimensional open holes array structure
摘要: Coherent Smith-Purcell radiation from multiple electron beam excitation in a three-dimensional open holes array structure has been proposed. The electron beam passes through the holes, which can be coupled with each other to enhance surface wave fields, so that the multiple electron beam injection can interact with the surface wave field efficiently. And the Smith-Purcell radiation will be enhanced due to an increasement in dipole oscillations occurring when the electrons pass through the holes. Therefore, a high beam-wave interaction efficiency is yielded and very strong coherent terahertz radiation can be generated. This multi-beam system is expected to provide a favorable way to excite the coherent Smith-Purcell radiation, which would be used to generate terahertz radiation.
关键词: terahertz radiation,open holes array structure,Smith-Purcell radiation,electron beam
更新于2025-09-23 15:21:01
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Precise control of ion and radical production using electron beam generated plasmas
摘要: Precise control over both the relative and absolute ?ux of plasma species as well as their energy deposition at surfaces is critical to enabling the plasma processing of materials with atomic layer precision. In addition to the need for low damage, the complex device structures proposed for next generation nanoelectronics will also require control over radical to ion ratio. Electron beam generated plasmas are capable of generating a wide range of charged particle densities (109–1012 cm?3), while maintaining low electron temperatures (0.1–1.0 eV) and in reactive gas backgrounds, a relatively low radical production rate compared to discharges. These characteristics provide the ability to precisely control both the ion energy at adjacent surfaces and the ion to radical ?ux ratio. The latter capability is realized by coupling an electron beam generated plasma with an auxiliary plasma source designed to promote radical production. In this work, optical emission spectroscopy and Langmuir probe measurements are combined to measure the positive ion and ?uorine atom densities in electron beam generated Ar/SF6 plasmas coupled to a remote, inductively coupled plasma source operating in the same environment. The results indicate that the approach can be used to indepen- dently control the positive ion and F radical densities such that the ion to radical density ratio can be varied over a range of 2–3 orders of magnitude.
关键词: electron beam generated plasmas,ion production,atomic layer precision,radical production,plasma processing
更新于2025-09-23 15:21:01
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Atomic diffusion induced by electron-beam irradiation: An <i>in situ</i> study of Ag structures grown from <i>α</i> -Ag <sub/>2</sub> WO <sub/>4</sub>
摘要: In this paper, we investigate the structural and morphological changes caused by the electron-beam irradiation that led to the growth of complex extruded filaments on the surfaces of α-Ag2WO4. To provide a complete description of this phenomenon, both scanning electron microscope (SEM) and transmission electron microscope (TEM) were employed in this study. Our experimental results evidenced that the extruded material was able to growth in different crystallographic faces, depending on the kind of microscope adopted during the electron-beam irradiation. For a more complete analysis, different electron-beam current densities in TEM were used to investigate all in situ modifications in the microcrystals. For the first time, besides the metallic silver, the presence of silver oxides (Ag2O and Ag3O4) were detected in the composition of extruded material. The diffusion mechanisms related to morphological modifications in the samples irradiated in SEM and TEM were discussed in details. The co-precipitation reaction in dimethyl sulfoxide was chosen as synthetic route, which favored the appearance of rectangular rod-like α-Ag2WO4 microcrystals. A growth mechanism was proposed to explain the formation and growth processes of these microcrystals.
关键词: silver filaments,α-Ag2WO4,silver oxides,electron-beam irradiation,diffusion mechanisms
更新于2025-09-23 15:21:01
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Study on Needles and Cracks of Tin-doped Indium Oxide Tablets for Electron Beam Evaporation Process
摘要: Tin-doped indium oxide (ITO) tablets were used to deposit ITO films on p-GaN layer of light-emitting diodes. Needles and cracks in ITO tablets generated during electron beam evaporation process were deeply investigated. The formation of needles is predominantly resulted from the scanning trace, which is controlled by x and y axes scanning singles. The needles can be eliminated by controlling electron beam scanning trace. The loose microstructure with uniform grains and pores in the ITO tablets results in weak bonding strength, which leads to cracks under the thermal shock of high energy electron beam. A three-dimensional reticulated skeleton structure with strong bonding strength can restrain these cracks.
关键词: needle,crack,ITO,electron beam evaporation
更新于2025-09-23 15:21:01
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Strong Quantum Confinement Effects in Nanometer Devices with Graphene Directly Grown on Insulator by Catalyst-free Chemical Vapor Deposition
摘要: Background: The understanding of electrical properties of defective graphene in nanometer regime has lagged behind. Objective: This report intends to characterize defective but practically useful graphene as nanometer devices. Method: A-few-layer-thick graphene was directly grown on SiO2 substrate by alcohol-chemical vapor deposition (alcohol-CVD) using ethanol as carbon source and without the use of any catalytic metal. The graphene film was delineated into nanometer structures by electron beam lithography to make the nanoscale devices. Results: The Raman spectra of the graphene sheet on SiO2 shows relatively large D peak, which means the graphene is defective and consists of nanograins with an estimated size of 17 nm. Modulation of the graphene resistance by the gate voltage Vg was studied at room temperature. The film shows only p-type conduction, with a sheet resistance of 3.7 kΩ/□ and field-effect mobility calculated to be 44 cm2/Vs. From the temperature dependence of the graphene sheet, it is found that the resistance increases only by 7% from room temperature to 10 K, indicating low potential barrier between the domains, even though the graphene film is as thin as 1.6 nm and defective. From the conductance (Id/Vd) contour plot measured at 10 K of these nanodevices, aperiodic Coulomb-blockade feature and transport with a large gap were observed. Conclusion: Correlation among narrowest constriction widths, the variation of the addition energies and transport gaps in disordered graphene nanostructures is evident. These graphene nanodevices may have promising application in various nanodevices like single-electron (or single-hole) transistor, single-molecule transistor, van-der-Waals stacked nanodevices, etc.
关键词: graphene nanometer devices,Graphene nanostructures,sheet resistance,Raman spectra,Coulomb blockade,alcohol chemical vapor deposition,electron beam lithography
更新于2025-09-23 15:21:01
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Effect of deposition angle on fabrication of plasmonic gold nanocones and nanodiscs
摘要: Metal nanocones can exhibit several strong plasmonic resonances, which are associated with intense and accessible electromagnetic hot spots. They can thus be used to enhance light–matter interactions or to facilitate location-specific sensing while enabling separation of some non-specific contributions towards the sensing signal. Nanocones and similar 3D structures are often fabricated with the use of the so-called self-shading effect, which occurs during the evaporation of a metal film into circular nanowells. Unfortunately, a full description of a successful deposition process with all the essential details is currently missing in literature. Here we present a detailed view of the fabrication of ordered arrays of conical gold nanostructures using electron beam lithography and gold electron beam evaporation. We show that the symmetry of the fabricated nanostructures is influenced by the lateral position of the substrate on the sample holder during the deposition. Off-axis deposition or tilt of the sample leads to asymmetric nanostructures. When the deposited film is thick enough, or the nanowells narrow enough, the entrance aperture is clogged, and nanocones with sharp tips are formed. In contrast, flat-top truncated cones are produced for thinner films or wider nanowells. All these findings help to identify inherent limits for the production of wafer-scale arrays of such non-planar nanostructures. On the other hand, they also suggest new fabrication possibilities for more complicated structures such as mutually connected nanocones for electrically addressable chips.
关键词: Plasmonics,Optical antenna,Nanodisc,Nanocone,Electron beam evaporation,Electron beam lithography
更新于2025-09-23 15:19:57
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[IEEE 2019 IEEE 8th International Conference on Advanced Optoelectronics and Lasers (CAOL) - Sozopol, Bulgaria (2019.9.6-2019.9.8)] 2019 IEEE 8th International Conference on Advanced Optoelectronics and Lasers (CAOL) - Formation of Space Charge Wave with Wide Frequency Spectrum in Helical Electron Beam of Two-Stream FEL Transit Section with Longitudinal Electric Field
摘要: The longitudinal electric field effect on the formation of a space charge wave (SCW) with wide frequency spectrum in the helical two-stream relativistic electron beam (REB), which moves in transit section of multiharmonic two-stream superheterodyne free-electron laser, is analyzed. In the framework of cubic nonlinear approximation, it is shown that the use of the accelerating electric field makes it possible to increase the multiharmonic SCW width of the frequency spectrum. It is shown that the retarding electric field causes the increase of the amplitude level SCW harmonics, as well as the decrease of its saturation length.
关键词: three-wave parametric resonance,helical electron beam,two-stream instability,two-stream superheterodyne free-electron laser,longitudinal electric field
更新于2025-09-23 15:19:57
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Extremely high-intensity operation of a THz free-electron laser using an electron beam with a higher bunch charge
摘要: A higher intensity THz beam is generated with a free-electron laser (FEL) based on the L-band (1.3 GHz) electron linac at Osaka University by increasing the electron bunch charge four times higher from 1 nC in the conventional mode (the 108 MHz mode) to 4 nC in the new mode (the 27 MHz mode). This is realized by expanding the electron bunch intervals four times longer with the grid pulser of the electron gun, generating a series of 5 ns pulses at a repetition frequency of 27 MHz (the 48th subharmonic of 1.3 GHz), whereas the beam loading of the linac remains unchanged. The energy of an FEL macropulse comprised of many micropulses is measured in the 27 MHz mode to be approximately 28.5 mJ at a maximum of around 65 μm or 4.6 THz compared with the maximum macropulse energy of 13 mJ in the 108 MHz mode. The maximum micropulse energy in the 27 MHz mode is approximately 260 μJ using 110 micropulses, which is estimated by a macropulse duration of 4 μs and micropulse intervals of 36.9 ns. The micropulse energy is nearly 10 times higher than the micropulse energies in the conventional mode and in other FELs in the same wavelength or frequency region.
关键词: Free-electron laser (FEL),Terahertz (THz),Electron beam,High charge
更新于2025-09-23 15:19:57
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Electron Beam Brightness and Undulator Radiation Brilliance for a Laser Plasma Acceleration Based Free Electron Laser
摘要: We report here on spontaneous undulator radiation and free electron laser calculations after a 10-m long transport line (COXINEL) using a Laser Plasma acceleration (LPA) source. The line enables the manipulation of the properties of the produced electron beams (energy spread, divergence, dispersion) in view of light source applications. The electron beam brightness and undulator radiation brilliance are addressed by an analytical approach enabling us to point out the influence of chromatic effects in the COXINEL case.
关键词: undulator radiation,free electron laser,electron beam brightness,laser plasma acceleration
更新于2025-09-23 15:19:57
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Effects of laser shock peening on microstructure and fatigue behavior of Tia??6Ala??4V alloy fabricated via electron beam melting
摘要: Laser shock peening (LSP) is a post-treatment process that is widely used to modify the surface microstructure and mechanical properties of parts constructed by additive manufacturing (AM). In this study, the influence of LSP on the microstructure and fatigue behavior of Ti–6Al–4V alloy manufactured via electron beam melting (EBM), a popular method of AM, was investigated. The microstructure of the EBM sample consisted of the β phase (~6 vol%) and α lamellar phase. Grain refinement of the α phase occurred via both dislocation evolution and deformation twinning during LSP. A theoretical description of the microstructural evolution, particularly the distribution of deformation twins, was developed. The fatigue strength and micro-hardness of the EBM samples increased by approximately 17% and 11% after LSP treatment, respectively. The fatigue fracture morphologies at three defined damage stages (crack initiation, crack propagation, and instantaneous rupture) were examined for EBM samples before and after LSP. The dominant mechanism of fatigue strength enhancement by LSP was discussed. The effects of residual compressive stress assistant with adiabatic temperature increase and grain refinement of the α phase produced by LSP reduced the pre-existing crack size, suppressed crack initiation, and increased the required work for fatigue fracture.
关键词: Laser shock peening,Electron beam melting,Ti–6Al–4V titanium alloy,Fatigue behavior,Microstructural characterization
更新于2025-09-23 15:19:57