Tidligere arrangementer - Side 26
Alfredo Galindo-Uribarri, Oak Ridge National Laboratory / University of Tennessee, Knoxville.
Cell Culture Impedance Sensing with Thin Film ITO Electrodes
Master of Science Malin Klintefjord ved Fysisk institutt vil forsvare sin avhandling for graden ph.d: Evolution of deformation and collectivity away from Magic numbers
Comparison of Simulated Extracellular Spikes from Pyramidal Neurons and Interneurons
Master of Science Yaqi Jin ved Fysisk institutt vil forsvare sin avhandling for graden ph.d: Characterization of GPS Scintillations in the Polar Ionospere
Anne Marit Rykkelid, Fysisk institutt
"Pure and Substituted 114 Oxides RBaCo4O7+δ (R = Y, Ca, Gd, Tb, Dy, Ho, Yb): Defects, Transport, and Applications"
Andi Hektor, NICPB Tallinn
I will give a short introduction to Dark Matter physics. I will sum up the the main evidences of Dark Matter from the Galactic to large cosmological scales. So far the evidences are only gravitational. I will point out that even the gravitational signals of Dark Matter can hint about the deeper nature of Dark Matter, especially having soon new data from the Gaia and other soon starting experiments. Beyond gravitation, we have many experimental constraints on the ‘particle’ nature of Dark Matter and only few questionable hints of Dark Matter. Those experiments involve the accelerator (LHC at CERN), underground (‘direct detection') and cosmic experiments (‘indirect detection’). Due to rapidly evolving experimental and observational bounds the mainstream candidate of Dark Matter, Weakly Interacting Massive Particle, is losing its ground. I will point out some interesting escape scenarios of WIMP. I will conclude highlighting some interesting alternatives for WIMPy Dark Matter.
(Slides will be available here)
Kathinka Pitman, Dept. Physics
Mathematical Modelling of Heart Rate During Cycling Exercise
"Numerical simulations of inhomogeneous superconducting films"
Quantum Monte Carlo studies of Many-Electron systems
Conference poster and 1. Bulletin are available on the web site of theconference: 5th International Conference on New Frontiers in Physics
Oxygen-related defects in Carbon-rich Solar Silicon studied by Fourier Transform Infrared Spectroscopy
Timo Hyart, University of Jyväskylä
Topological materials are characterised by the existence of momentum space topological defects, topological invariants and protected surface states. After the classification of the possible fully gapped topological phases, the attention has now turned to the possible momentum space topological defects appearing in gapless semimetals and nodal superconductors. In this talk I will give an overview of the gapless topological phases containing Weyl points (monopoles) and Dirac lines (vortex lines) in the momentum space. The next step in the increasing complexity of the momentum space topological defects is to consider the topology of the systems containing multiple Dirac lines. I will describe how the structural symmetries of the systems can allow stabilising a momentum-space topological defect where several Dirac lines meet and merge in the momentum space forming a momentum-space equivalent of the real space nexus considered before for Helium-3. By the bulk-boundary correspondence of topological media the presence of Dirac lines leads to formation surface states. I will discuss the properties of these surface states in a nexus semimetal.
(The slides will be available after the talk)
Modeling and parameter estimation of an unmanned ground vehicle with a continuously variable transmission
Syntese og karakterisering av Pt1-xRhx nanopartikler .
Kolloidal partikkelsyntese, røntgendiffraksjon og elektronmikroskopi
Preparing a Mechanical Oscillator in a Fock State by Quantum Reservoir Engineering
Self-assembly & Surface Properties of Peptides and Peptidomimetic Polymers
The 2016 CERN-JINR European School of High-Energy Physics will take place in Skeikampen (close to Lillehammer), Norway, 15 - 28 June 2016.
Er alle kompetansemål like viktige? - Vurdering av kvalitativ kompetanse i Fysikk 2 i videregående skole
MT2 as a variable for discovering supersymmetry
DCE-MRI for assessment of hypoxia-induced prostate cancer aggressiveness
A first principles study of lattice thermal conductivity in XNiSn (X = Ti, Zr, Hf) half-Heusler alloys for thermoelectric applications
Light Conversion Materials for Solar Cell Applications - Synthesis and Characterisation of Lanthanide Fluoride Thin Films by Atomic Layer Deposition
Zinc vacancy–donor defect complexes in crystalline Zinc Oxide.
A hybrid density functional study.
Pair Production of Leptophilic Dark matter at Next-To-Leading Order
Topological Superconductivity and Majorana Fermions
Diffusion of potential p-type dopants in monocrystalline ZnO
Struktur-egenskapsrelasjoner til perovskittoksidene LaNi1-xMxO3M=Rh, Pt og deres funksjon som katalysator for dekomponering av lystgass.
Well defined nanoparticles through controlled non-equilibrium micellization of block copolymers
Modeling Atrial Fibrillation - Exploring the Koivumäki Human Atrial Cell Model
Estimation of Metabolic Oxygen Consumption From Optical Measurements in Cortex
Gamma ray signals from annihilating dark matter in curved spacetime
Structural- and Compositional Investigations of Grain Boundaries in Y-Doped BaZrO3
Master of Science Hussein Mohammed Hussein Ayedh ved Fysisk institutt vil forsvare sin avhandling for graden ph.d: "Controlling the Carbon Vacancy in 4H- Silicon Carbide"
Quantum Mechanical Modelling and Optical Spectroscopy of Zn(Mg,Cd)O Heterostructures
Scanning Probe Microscopy - Method Development and Applications to Zinc Oxide Structures
"Application of Compressed Sensing to Reconstruction of 3-D Charge Collection Efficiency in Silicon Sensors"
Ion Implantation of ZnO by the Group IV elements Si and Ge: Doping, defects and nanocrystallization
Endre Grøvik, Intervensjonsavdelingen, Oslo Universitetssykehus og Fysisk institutt
A Method for Describing Ocean Environments for Ship Design