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Formation and characterization of FeSi2 thin films and precipitates prepared by metal vapor vacuum arc (MEVVA) ion implanation. / CUHK electronic theses & dissertations collectionJanuary 2002 (has links)
by Gao Yun. / "November 2002." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2002. / Includes bibliographical references (p. 165-171). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.
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A study of ion implantation damage and its effects in silicon.January 1997 (has links)
by Chan Kwok Wai. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1997. / Includes bibliographical references (leaves 93-95). / ACKNOWLEDGEMENT --- p.i / ABSTRACT --- p.ii / LIST OF SYMBOLS --- p.iii / LIST OF FIGURES --- p.v / LIST OF TABLES --- p.vi / Chapter CHAPTER ONE --- INTRODUCTION --- p.1 / Chapter CHAPTER TWO --- SURVEYS ON ION IMPLANTATION DAMAGE STUDY --- p.6 / Chapter 2.1 --- Introduction --- p.6 / Chapter 2.1.1 --- Basic Theory --- p.7 / Chapter 2.1.2 --- Amorphization --- p.9 / Chapter 2.1.3 --- Amorphous Layer Regrowth --- p.10 / Chapter 2.1.4 --- Point Defect Sources --- p.11 / Chapter 2.1.5 --- Types of Extended Defects --- p.11 / Chapter 2.2 --- Nature of Point Defects --- p.15 / Chapter 2.2.1 --- Important Parameters --- p.15 / Chapter 2.2.2 --- Vacancy Centers in Semiconductor --- p.16 / Chapter 2.2.3 --- Self-interstitial in Silicon --- p.17 / Chapter 2.2.4 --- Distribution of Excess Point Defects --- p.18 / Chapter 2.2.5 --- Energy Level of Defect Species --- p.19 / Chapter CHAPTER THREE --- EXPERIMENTAL METHOD --- p.21 / Chapter 3.1 --- Experimental --- p.21 / Chapter 3.2 --- Spreading Resistance Profiling --- p.25 / Chapter CHAPTER FOUR --- MODELING OF SPREADING RESISTANCE PROFILES OF ION-IMPLANTED DAMAGE IN SILICON --- p.29 / Chapter 4.1 --- Introduction --- p.29 / Chapter 4.2 --- Basic equation --- p.30 / Chapter 4.3 --- Formation of Model --- p.34 / Chapter CHAPTER FIVE --- RESULTS AND DISCUSSION --- p.37 / Chapter 5.1 --- Results --- p.37 / Chapter 5.2 --- Discussion --- p.55 / Chapter CHAPTER SIX --- CONCLUSION AND SUGGESTIONS OF FURTHER WORK --- p.58 / Chapter 6.1 --- Conclusion --- p.58 / Chapter 6.2 --- Suggestions of further work --- p.59 / APPENDIX A --- p.60 / APPENDIX B / SPREADING RESISTIVITY PROFILES --- p.62 / REFERENCE --- p.93
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Electrical characterization of SiC/Si heterostructure by ion implantation of carbon.January 1996 (has links)
by Ho Lai-Ching. / Year shown on spine: 1997. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1996. / Includes bibliographical references (leaves xiii-xvii). / ACKNOWLEDGMENT --- p.I / ABSTRACT --- p.II / CONTENTS --- p.IV / FIGURE CAPTIONS --- p.VI / TABLE CAPTIONS --- p.IX / Chapter CHAPTER 1 --- INTRODUCTION --- p.1 / Chapter CHAPTER 2 --- A BRIEF REVIEW OF ION BEAM SYNTHESIS OF SiC --- p.5 / Chapter CHAPTER 3 --- SAMPLE PREPARATION AND MEASUREMENT METHODS --- p.9 / Chapter 3.1 --- Sample Preparation --- p.9 / Chapter 3.1.1 --- MEVVA Implantation --- p.9 / Chapter 3.1.2 --- Implantation Conditions --- p.12 / Chapter 3.2 --- Characterization Methods --- p.14 / Chapter 3.2.1 --- Spreading Resistance Profiling (SRP) --- p.14 / Chapter 3.2.1.1 --- Principle of SRP Measurement Method --- p.14 / Chapter 3.2.1.2 --- Sample Preparation and Measurement --- p.15 / Chapter 3.2.2 --- Current-Voltage Measurement (I-V) --- p.17 / Chapter 3.2.3 --- Infrared Transmission Measurements (IR) --- p.19 / Chapter CHAPTER 4 --- RESULTS AND DISCUSSIONS --- p.20 / Chapter 4.1 --- Results of SRP Measurements --- p.20 / Chapter 4.2 --- Results of I-V Measurements --- p.27 / Chapter 4.3 --- Results of IR Measurements --- p.34 / Chapter 4.4 --- Discussions --- p.39 / Chapter 4.4.1 --- IR Absorption Results --- p.39 / Chapter 4.4.2 --- Hot Probe Measurement Results --- p.45 / Chapter 4.4.3 --- SRP Depth Profiles --- p.50 / Chapter 4.4.4 --- Current Transport Mechanism --- p.55 / Chapter 4.4.5 --- Ideality Factor and Transport Mechanisms --- p.76 / Chapter CHAPTER 5 --- CONCLUSIONS AND FUTURE WORKS --- p.85 / Chapter 5.1 --- Conclusions --- p.85 / Chapter 5.2 --- Future Works --- p.86 / APPENDIX --- p.i / BIBLIOGRAPHY --- p.xiii
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Spin and charge properties of Si: P probed using ion-implanted nanostructuresMcCamey, Dane Robert, Physics, Faculty of Science, UNSW January 2007 (has links)
This thesis investigates the defects, charge states and spin properties of phosphorus doped silicon, and is motivated by a number of proposals for quantum information processing (QIP) that involve using the spin or charge of individual donors in silicon as qubits. The implantation of phosphorus into silicon is investigated; specifically the ability to remove damage and activate the implanted donors. The impact of implantation on the transport properties of silicon MOSFETs at cryogenic temperatures is used to investigate the damage. Implanting phosphorus into the MOSFET channel leads to reduced electron mobility. The defect density increases linearly with implant density (??ndefect = 0.08 ?? 0.01nimplant). Silicon implantation does not show this effect, suggesting that the additional defects are ionised P donors in the channel. Implant activation for low density donors was complete for an implant density of 2 x 1012 cm2. Similar studies were undertaken on devices with a variety of dielectrics. Thermally grown SiO2 was found to have the lowest defect density of those studied, although Al2O3 deposited via atomic layer deposition was found to have properties that may be useful for the fabrication of devices with low thermal processing budgets. The as-grown defect density of the thermal silicon dioxide was found to be 2.1 ?? 0.3 x 1011 cm2. Ion implantation of nanoscale devices allowed the spin properties of a small number of phosphorus donors in silicon to be probed via electrically detected magnetic resonance. This allowed the detection of the spin resonance of as few as 100 spins. This represents an improvement in number detection of 4 orders of magnitude over previous EDMR studies of donors in silicon. EDMR was used to investigate the properties of P donors in isotopically purified 28Si . The material had a background doping level too high to detect small numbers of spins, however, the narrow linewidth of the phosphorus resonance confirm that the isotopic purity is greater than 0.999. A proof-of-principle demonstration of pulsed EDMR of ion-implanted donors in silicon is presented. The spin dependent transient that results from manipulating the donor spins via pulsed ESR is sensitive to as few as 104 donors, and is a required component for observation of spin Rabi oscillations by this technique.
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Studies of oxygen implantation induced deep level defects in zinc oxide single crystalYe, Ziran., 叶自然. January 2011 (has links)
Zinc Oxide (ZnO)is a wide band gap semiconductor which has attracted great attention because of its wide applicability. In order to obtain semiconductor devices with stable and reproducible properties further study of deep level defects is essential. DLTS (Deep level Transient Spectroscopy) is a direct and straightforward techniqueto determine the energy level of the deep level defects. Other information such as activation energy and capture cross section of the defect can also be obtained through this method. In our study ZnO single crystal samples were implanted by oxygen with the energy of 150keV. After the pretreatment of hydrogen peroxide, Schottky contacts were fabricated with Au
film deposited by thermal evaporation.
Deep level defects were studied by deep level transient spectroscopy (DLTS). Single peak spectra were observed in the as-implanted sample and samples anneal at 350oC, 650oC and 750oC with the corresponding activation energy decreasing with the annealing temperature from ~0.29eV as found in theas-implanted sample. Three peaks were identified in the DLTS spectra of the 900oC sample, with the activation energies of 0.11eV, 0.16eV and 0.37eV respectively.After analysis in detail we found some peaks in the DLTS spectra were the combination of two other peaks, dominated in different temperature range. The thermal evolutions of the deep levels up to the temperature of 1200oC were also investigated. / published_or_final_version / Physics / Master / Master of Philosophy
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Two-dimensional plasma sheath observations in plasma source ion implantation.Meyer, Kevin Alan. January 1996 (has links)
Plasma Source Ion Implantation (PSII) is the process of implanting high energy ions
[10-50 keV] into metallic targets, by pulsing them negatively whilst immersed in a
background plasma. PSII achieves surface hardening, and increased wear and corrosion
resistance.
Numerous papers have been published describing numerical simulations and models
of the PSII process, most of which have been limited to one dimension.
This thesis presents the results of work carried out III the Plasma Processing
Laboratory at the University of Natal, Durban, during 1994-1995. In particular,
measurements of two-dimensional plasma sheath effects due to spherical and complex
shaped targets are compared with a particle-in-cell simulation code.
The simulation results are used to define a relationship between the plasma potential
of the sheath edge and the saturation currents. Thus allowing for the saturation
currents to be used to trace sheath evolution. These results are compared with the
experimental measurements from the spherical target.
Results from the rectangular and complex saw-tooth targets show a lack of sheath
conformality. The ion saturation currents were susceptible to electron swamping,
which occured in localised regions associated with target structure. It is thought that
secondary electrons ejected from the target are focused and accelerated by the high
target potential into these regions, where they swamp the ion current. / Thesis (M.Sc.)-University of Natal, Durban, 1996.
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Metallic Amorphous Thin Films and Heterostructures with Tunable Magnetic PropertiesZamani, Atieh January 2015 (has links)
The primary focus of this thesis is to study the effect of doping on magnetic properties in amorphous Fe100−xZrx alloys. Samples with compositions of x = 7,11.6 and 12 at.% were implanted with different concentrations of H. Moreover, the samples with a composition of x = 7 at.% were also implanted with He, B, C and N. Magnetic measurements were performed, using SQUID magnetometry and MOKE, in order to compare the as-grown and the implanted films. The Curie temperature (Tc) increases and the coercivity (Hc) decreases, with increasing dopant volume. We also found that Hc increases with temperature for B and C doped samples. Magnetization curves at low temperature validate the presence of non-collinear spin configurations in the as-grown films, which is suppressed after doping, resulting in films with tunable soft magnetic properties. We have also studied the effect of interlayer mixing and finite size effects on FeZr in Fe92Zr8/AlZr multilayer films, and found an anomalous increase of Tc with decreasing thickness. Strain induced changes in the magnetization of an amorphous Co95Zr5 film at the orthorhombic phase transition of the BaTiO3 substrate, was also studied. The results show that structural modifications of the substrate increases the stress and hence changes the magnetic anisotropy in the amorphous Co95Zr5 layer. Finally, the magnetization reversal of Co and CoX heterostructures, with X being Cr, Fe, Ni, Pd, Pt and Ru, has been studied. For this purpose a synthetic antiferromagnet structure, FM/NM/FM, was used, where FM is a ferromagnetic Co or CoX layer and NM is a nonmagnetic Ru spacer layer. The FM layers are coupled antiferromagnetically across the NM layer. For a range of FM layer thicknesses, the exchange stiffness parameter Aex and the interlayer coupling (JRKKY ) of the Co or CoX layers were obtained. This is done by fitting M(H) curves, measured by SQUID magnetometry, to a micromagnetic model. The alloying in CoX resulted in a decreasing Aex and also a reduced MS. The experimental results are in a good agreement with DFT calculations.
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Spin and charge properties of Si: P probed using ion-implanted nanostructuresMcCamey, Dane Robert, Physics, Faculty of Science, UNSW January 2007 (has links)
This thesis investigates the defects, charge states and spin properties of phosphorus doped silicon, and is motivated by a number of proposals for quantum information processing (QIP) that involve using the spin or charge of individual donors in silicon as qubits. The implantation of phosphorus into silicon is investigated; specifically the ability to remove damage and activate the implanted donors. The impact of implantation on the transport properties of silicon MOSFETs at cryogenic temperatures is used to investigate the damage. Implanting phosphorus into the MOSFET channel leads to reduced electron mobility. The defect density increases linearly with implant density (??ndefect = 0.08 ?? 0.01nimplant). Silicon implantation does not show this effect, suggesting that the additional defects are ionised P donors in the channel. Implant activation for low density donors was complete for an implant density of 2 x 1012 cm2. Similar studies were undertaken on devices with a variety of dielectrics. Thermally grown SiO2 was found to have the lowest defect density of those studied, although Al2O3 deposited via atomic layer deposition was found to have properties that may be useful for the fabrication of devices with low thermal processing budgets. The as-grown defect density of the thermal silicon dioxide was found to be 2.1 ?? 0.3 x 1011 cm2. Ion implantation of nanoscale devices allowed the spin properties of a small number of phosphorus donors in silicon to be probed via electrically detected magnetic resonance. This allowed the detection of the spin resonance of as few as 100 spins. This represents an improvement in number detection of 4 orders of magnitude over previous EDMR studies of donors in silicon. EDMR was used to investigate the properties of P donors in isotopically purified 28Si . The material had a background doping level too high to detect small numbers of spins, however, the narrow linewidth of the phosphorus resonance confirm that the isotopic purity is greater than 0.999. A proof-of-principle demonstration of pulsed EDMR of ion-implanted donors in silicon is presented. The spin dependent transient that results from manipulating the donor spins via pulsed ESR is sensitive to as few as 104 donors, and is a required component for observation of spin Rabi oscillations by this technique.
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Electrical Properties, Tunability and Applications of Superconducting Metal-Mixed PolymersAndrew Stephenson Unknown Date (has links)
We investigate the newly discovered, superconducting metal-mixed polymers made by embedding a surface layer of metal (a tin-antimony alloy) into a plastic substrate (polyetheretherketone - PEEK). Focusing initially on pre-implanted systems, we show that while the substrate morphology does affect the distribution of metal deposited on the surface, the morphology has no affect on the film's electrical properties. We find that the metal content can be characterised via the film's optical absorption, which along with the conductivity, scales with thickness. By conducting low temperature resistivity measurements we observe that the superconducting critical temperature, $T_c$, remains at that of bulk Sn but the transition broadens with decreasing film thickness. Studying N-implanted metal-mixed polymers, we find that the implant temperature can influence the electrical properties of these systems, as higher implant temperatures result in greater disorder, which in turn causes higher residual resistances and broader superconducting transitions. We observe peaks in the magnetoresistance of superconducting/insulating systems, which we attribute to the competition between superconductivity and weak localisation in a granular network. We determine that the substrate morphology does not influence the electrical properties of implanted systems. We investigate the role sputtering plays by implanting heavier ions (Sn) and show that this technique can be used to overcome the issue of inhomogeneity inherent with using thinner initial films. We study the effect the fabrication parameters of implant dose, beam energy and film thickness have on Sn-implanted metal-mixed polymers and find that with only minor changes in the fabrication conditions, it is possible to tune the conductivities of these materials between a zero-resistance superconducting state, through a metal-insulator transition, to a severely insulating state ($R_s > 10^{10}~\Omega/\Box$). We find that the electrical properties can be further controlled by annealing the samples, and that it is possible to induce optical changes at temperatures approaching the glass transition temperature of PEEK. We demonstrate that metal-mixed polymers are suitable for use in resistance-based temperature sensors by comparing their performance directly against commercially available products and find that the metal-mixed polymers perform at least as well as the commercial models and, indeed, pass the highest industry standards.
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Defect studies of ion implanted silicon and silicon dioxide for semiconductor devicesLay, Matthew Da-Hao Unknown Date (has links) (PDF)
We have studied the introduction of defects in silicon wafers with low dose channelling ion implantation. (For complete abstract open document)
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