events - Page 43
Molecular Dynamics modeling of single asperity contact
Nitrogen Doping of Sputtered Cuprous Oxide Thin Films by Ion Implantation
Compact Sensor System for Target Localization
PET-basert doseintensivering og adaptiv stråleterapi av analkreft
RPC-LAP Electric Field Signatures at the Diamagnetic Cavity of Comet 67P/Churyumov-Gerasimenko
Nanoscale measurements of oxidation states in the CaMnO3/LaMnO3 system using Electron Energy Loss Spectroscopy
Influence of Mn Stoichiometry on the Structure and Thermoelectric Properties of CaMn(1+y)O(3-d)
Dark Matter Bound State Formation for Pseudo-Scalar Mediators
3D Printed Horn Antenna for Ultra Wideband Applications
Magnetic Bloch oscillations in CoNb2O6
Master i fysikk Andres Spicher at the Department of Physics will be defending the thesis Multiscale characterization of plasma irregularities in the polar ionosphere using in situ measurements for the degree of Ph.D.
Master i fysikk Andres Spicher at the Department of Physics will give a trial lecture on the given topic: "Kappa distribution functions in space environment, where they occur and their implications"
Modular forms and universality classes of topological matter
Defect and transport in acceptor-doped KBaPO4 and BaSO4
Pat Scott, Imperial College London
I will give an introduction to GAMBIT, the Global and Modular Beyond-the-Standard Inference Tool, focussing on the Beyond-the-Standard-Model science programme currently being pursued with it. This includes indirect searches for dark matter with gamma-rays and neutrinos, direct searches with a range of underground experiments, cosmological constraints, associated searches for new particles at the LHC and in flavour experiments, and precision tests of the Standard Model. I will present the latest combined constraints on singlet Higgs-portal dark matter, and on GUT-scale and weak-scale parameterisations of supersymmetry. I will also briefly discuss GAMBIT extensions on the near horizon.
(The slides will be available here)
Search for direct production of sleptons in proton-proton collisions at sqrt(s) = 13 TeV with the ATLAS detector
Alkali and Alkaline Earth Oxoacid Salts; Synthesis, Hydration, Stability and Electrical Conductivity
Three M-Species Generalizations for Rotating Bose Gases in the Lowest Landau Level
From dose prescription to dose delivery - can dose painting by numbers be accurately delivered?
Synthesis and Characterization of Titania Nanotube Photoanodes - Theoretical and Experimental Aspects
Cand. ed. Marianne Løken at the Department of Physics will be defending the thesis "Skriv ditt valg! Nyskriving av historier om @typiske utdanningsvalg" for the degree of Philosophiae Doctor.
Cand.ed. Marianne Løken at the Department of Physics will give a trial lecture on the given topic: "Inkludering i et interseksjonelt perspektiv: Hva sier den internasjonale forskningen om inkludering i STEM-fagene?"
Nicolao Fornengo, University of Torino
Anisotropies in the extragalactic electromagnetic emission originated from dark matter represent an emerging tool in the quest for a particle dark matter signal. These anisotropies are due to the cumulative emission from unresolved dark matter structures, which are present at any scale: galaxy clusters, individual galaxies, subhalos inside galaxies. The same structures can be probed by gravitational tracers of the dark matter distribution in the Universe: this is obtained by large-scale-structure surveys, but in the future a good wealth of additional and complementary information will be available from weak lensing surveys. The study of gamma-rays anisotropies and the cross-correlation between the dark matter signal and gravitational tracers offer a novel and powerful opportunity to probe the particle physics nature of dark matter. The talk will introduce details and features of gamma-rays anisotropies and give perspectives of the cross-correlation approach.
(The slides will be available here)
Design of sound speed profiler; Water Parameter Sensor
Kjetil Børkje, University College of Southeast Norway
I will discuss ongoing work on cavity optomechanical systems, where electromagnetic radiation in a cavity interacts with the motion of nano- or microscale objects via radiation pressure. Such interactions have been exploited in order to bring mechanical systems into the quantum regime, but also in order to manipulate light or microwave radiation. Due to a small coupling constant, this has so far involved driving the cavity with a large number of photons. In this talk, I will discuss how single photons can be controlled or detected using optomechanical interactions. In particular, I will explore whether this is possible even if the system is not in the so-called strong coupling regime.
(The slides will be available here)