From: hackbard Date: Tue, 3 Jan 2012 23:05:46 +0000 (+0100) Subject: now starting results sections ... X-Git-Url: https://hackdaworld.org/gitweb/?a=commitdiff_plain;h=8a67bb480a220eaef92cce471d4cabcd71e66e40;p=lectures%2Flatex.git now starting results sections ... --- diff --git a/posic/talks/defense.txt b/posic/talks/defense.txt index ab47a0a..94350c3 100644 --- a/posic/talks/defense.txt +++ b/posic/talks/defense.txt @@ -4,7 +4,8 @@ dear examiners, dear colleagues. welcome everybody to the the defense of my doctor's thesis entitled ... as usual, i would like to start with a small motivation, which in this case focuses on the materials system, SiC. -and, thereby, approach the problem to be investigated within this study. +and, thereby, approach the problem to be investigated within this study, i.e. +a controversy concerning the precipitation mechanism present in the literature. slide 2 @@ -35,8 +36,7 @@ towards an extensive development and use of regenerative energies and emobility. moreover, due to the large bonding energy, SiC is a hard and chemical inert material -suitable for applications under extreme conditions -and for microelectromechanical systems. +suitable for applications under extreme conditions. its radiation hardness allows the operation as a first wall reactor material and as electronic devices in space. @@ -47,7 +47,7 @@ is the only stable compound in the C/Si system. SiC is a mainly covalent material in which both, the Si and C atom are sp3 hybridized. the local order of the silicon and carbon atoms -characterized by the tetrahedral bond is the same for all polytypes. +characterized by the tetrahedral bond is always the same. however, more than 250 different polytypes exist, which differ in the one-dimensional stacking sequence of identical, close-packed SiC bilayers, @@ -58,12 +58,12 @@ the 3c polytype is the only cubic polytype. different polytypes exhibit different properties, which are listed in the table and compared to other technologically relevant semiconductor materials. -Despite the lower charge carrier mobilities for low electric fields, +despite the lower charge carrier mobilities for low electric fields, SiC clearly outperforms Si. among the different polytypes, the cubic phase shows the highest break down field and saturation drift velocity. additionally, these properties are isotropic. -thus, the cubic polytype is most effective for highly efficient +thus, the cubic polytype is considered most effective for highly efficient high-performance electronic devices. slide 4 @@ -74,13 +74,16 @@ the fact that natural SiC is almost only observed as individual presolar SiC stardust grains near craters of meteorite impacts already indicates the complexity involved in the synthesis process. -however, nowadays, much progress has been achieved in SiC thin film growth. +however, nowadays, much progress has been achieved in thin film growth +by molecular beam epitaxy and chemical vapor deposition. indeed, commerically available semiconductor devices based on alpha SiC exist, although these are still extremely expensive. -however, production of the advantageous cubic polytype material is less advanced. +however, production of the advantageous cubic type is less advanced, +mainly due to the mismatches in the thermal expansion coefficient and the lattice parameter -(with respect to the substrate) cause a considerable amount of defects, -which is responsible for structural and electrical qualities +(with respect to the substrate) +which cause a considerable amount of defects, +that is responsible for structural and electrical qualities that are not yet satisfactory. next to CVD and MBE, the ion beam synthesis technique, which consists of @@ -95,26 +98,157 @@ this enables the synthesis of large are SiC films. slide 5 -the ibs synthesis of ... - -and the task of this work is to gain insight into SiC precipitation in silicon. +the ibs synthesis of SiC was extensively investigated and optimized +here in augsburg in the group of joerg lindner. +a two-step implantation process was suggested. +the trick is to destroy stable precipitates at the layer interface +by implanting a remaining low amount of the dose at lower temperatures +to enable redistribution of the C profile during annealing, +which results in a homogeneous SiC layers with a sharp interface +as you can see in this cross section tem image. + +however, the precipitation itself is not yet fully understood. +understanding the effective underlying processes of precipitation +will enable significant progress in thin film formation of cubic SiC +and likewise offer perspectives for processes that rely upon prevention +of SiC precipitation, for example the fabrication of strained silicon. slide 6 -supposed conv mech - +there is an assumed mechanism of precipitation based on the formation and +agglomeration of interstitial carbon. +first note, however, that silicon as well as SiC consists of two fcc lattices +displaced by one quater of the volume diagonal. +in the case of SiC one of the fcc lattice atoms is replaced by carbon atoms. +4 lattice constants of silicon correspond to 5 lattice constants of SiC. +thus, in total, the silicon density is only slightly lower in SiC. + +the mechanism is schematically displayed here. +a pair of black dots represent two atoms of the two fcc lattices. +the incorporated carbon atoms form C-Si dumbbells +situated on regular silicon lattice sites. +with increasing doese these dumbbells agglomerate into large clusters, +indicated by dark contrasts and an otherwise undisturbed lattice in hrtem. +once a critical radius of 2-4 nm is reached, +the interfacial energy due to the lattice mismatch is overcome +and precipitation occurs. +this is manifested by the disappearance of the dark contrasts in favor of +moire patterns, again due to the lattice mismatch of SiC and silicon. +due to the slightly lower silicon density of SiC, +precipitation is accompanied by the emission of a few excess silicon atoms +into the silicon host, since there is more space. +it is worth to note that the hkl planes of substrate and SiC match. slide 7 -however, controversial ... exists in literature +however, controversial findings and conclusions exist in the literature. +instead of a carbon interstitial (Ci) based mechanism, +nejim et al propose a transformation based on substitutionally incorporated +carbon (Cs) and the generation of interstitial silicon, +which reacts with further impanted carbon in the cleared volume. +investigations of the annealing behavior of implantations +at different temperatures showed high and zero carbon diffusion +for the room temperature and elevated temperature implantations respectively. +this suggests the formation of mobile Ci at low temperatures +opposed to much more stable Cs configurations at elevated temperatures. +furthermore, investigations of strained SiC/Si heterostructures, +find initial coherent SiC structures, which, in this case, +incidentally transform into incoherent SiC nanocrystals +accompanied by strain relaxation. + +these findings suggest a mechanism based on the agglomeration of substitutional +instead of interstitial carbon atoms. +the task of the present study is to understand the precipitation mechanism +in the context of these controversial results. slide 8 -this (insight) is achieved by atomistic simulations, which are explained after the assumed precipitation mechnisms present in literature are presented ... +therefore, atomistic simulations are utilized, +to gain insight on a microscopic level not accessible by experiment. +namely, molecular dynamics (md) simulations and density functional theory (dft) +calculations, which are explained in the following, are used +to investigate carbon and silicon defect configurations as well as to +directly model SiC precipitation. +finally, after these results are presented, +i would like to give a short summary and conclusion. slide 9 + +in md, a system of n particles is described on the microscopic level +by numerically integrating newtons equations of motion. +the particle interaction is given by an analytical interaction potential. +observables are obtained by taking time or ensemble averages. + +in this case roughly 6000 atoms were used to investigate defect structures +and nearly a quater of a million atoms for the precipitation simulations. +the equations of motion are integrated by the velocity verlet algorithm +with a time step of 1 fs. +the interaction is decribed by a Tersoff-like short-range bond order potential, +developed by erhart and albe. +the short range character is achieved by a cutoff function, +which drops the interaction inbetween the first and second next neighbor atom. +the potential consists of a repulsive and an attractive part associated with +the bonding, which is limited by the bond order term, which takes +into consideration all atoms k influencing the bond of atoms i and j. +simulations are performed in the isothermal-isobaric ensemble +realized by the berendsen thermostat and barostat. + +furthermore, highly accurate quantum mechanical calculations +based on dft are used. +the basic concept of dft is the hohenberg kohn (hk) theorem, which states that +the ground-state wavefunction is a unique functional of the ground-state +electron density, which minimizes the energy, +i.e. it has the variational property. +in that way, the many body problem can be described by the electron density, +which depends only on the 3 spatial coordinates. +now, the kohn sham (ks) approach constitutes a hartree-like formulation +of the hk minimal principle, which maps the system of interacting particles to +an auxillary system of non-interacting electrons in an effective potential. +however formally exact by introducing an energy functional, +which accounts for the exchange and correlation energy. +the effective potential yields a ground-state density +for non-interacting electrons, which is equal to that for interacting electrons +in the external potential. +the kohn sham equations need to be solved in a self consistency loop. + +the vasp code was used for this purpose. +it utilizes plane waves to expand the ks wavefunctions. +an energy cut-off of 300 eV is employed. +the electron-ion interaction is described by ultrasoft pseudopotentials. +the generalized gradient approximation is used to solve the ks equations. +brillouin zone sampling is restricted to the gamma point. +the supercell consists of 216 atoms, 3 silicon unit cells in each direction, +of course much less atoms compared to the highly efficient md technique. + slide 10 + +defect structures are obtained by creating a supercell of crystalline silicon +with periodic boundary conditions and temperature and pressure set to zero. +the interstitial carbon or silicon atom is inserted followed by +structural relaxation into a local minimum configuration. + +next to the structure, defects can be characterized by formation energies, +which is defined by this formula, where the chemical potential +is taken to be the cohesive energy per atom for the fully relaxed structure. + +combinations of defects can be characterized by the binding energy, +the difference of the formation energy of the defect combination and +the isolated defects. +this way, binding energies below zero correspond to energetically favorable +configurations while the binding energy for non-interacting isolated defects +approaches zero. + +migration barriers from one stable configuration into another +are obtained by the constrained relaxation technique. +atoms involving great structural changes are displaced stepwise +from the starting to the final position and relaxation is only allowed +perpendicular to the displacement direction. +each step the configurational energy of the relaxed structure is recorded. + slide 11 + + + slide 12 slide 13 slide 14