Tommaso Ferrari Integration of Image Data for Improvement of Laser Altimetry of Mars Using Inverse Problems Supervisor: Klaus Mosegaard
Anna Xiao Tan Title: Automating Medical Image Analysis of SRmu-CT and Evaluation of Regenerated Bone Health Supervisor: James Emil Avery
Peter Valentin Ukkonen Improving the trade-off between accuracy and efficiency of atmospheric radiative transfer computations by using machin elearning and code optimization Supervisor: Eigil Kaas, (NBI) and PhD Kristian Pagh Nielsen (DMI)
Jakob D. Olsen Charge Noise and Stability of Foundry-Fabricated Silicon Spin-Qubit Devices Supervisors: Anasua Chatterjee & Ferdinand Kuemmeth
Simon Peter Heselschwerdt An analysis of the consistency between observed atmospheric winter variability and weather anomalies in the North Atlantic region Supervisor: Jens H. Christensen
Free roaming black hole detected in our galaxy for the first time Astronomers estimate that there should be 100 million black holes roaming among the 100 billion stars in our galaxy. They are the remnants of supernova explosions that happened throughout the 10 billion years of the…
Free roaming black hole detected in our galaxy for the first time Astronomers estimate that there should be 100 million black holes roaming among the 100 billion stars in our galaxy. They are the remnants of supernova explosions that happened throughout the 10 billion years of the…
Kristian Lyck Lotzkat Title: Exascale modelling using GPUs Supervisors: Troels Haugbølle, Åke Nordlund
Black holes helped quenching star formation in the early Universe While some galaxies form stars at a continuous rate, others die out and lead a more passive life. What made these galaxies stop forming stars at an early age is not well established, not the least because they are so…
Black holes helped quenching star formation in the early Universe While some galaxies form stars at a continuous rate, others die out and lead a more passive life. What made these galaxies stop forming stars at an early age is not well established, not the least because they are so…
Camilla Birch Okkels Title: Theoretical optimizations of quantum repeaters based on atomic ensembles Supervisor: Anders Søndberg Sørensen
Arnau Morancho Tarda Title: Search for prompt heavy neutral lepton decays into tau leptons with the ATLAS detector Supervisor: Stefania Xella
Beñat Martinez de Aguirre Jokisch Title: Dispersion engineering of atom-nanophotonic crystal waveguide interfaces Supervisors: Prof. Eugene Simon Polzik, Jean-Baptiste Béguin
Daniel Magleby Sørensen Title: Estimating glacier ice volume using image inpainting Supervisors: Troels Christian Petersen, Niccolò Maffezzoli
Love Alexander Mandla Pettersson Title: Exploring near-term quantum applications with graph states from quantum emitters Supervisors: Peter Lodahl, Stefano Paesani
Marie-Louise Riis Title: Piggyback Riding the Higgs Searches: A Hunt for Heavy Neutral Leptons with Tau Triggers Supervisor: Oleg Ruchayskiy
Nicolas Remy Høegh Pedersen Title: Nano-Opto-Mechanical Systems for photon control Supervisor: Leonardo Midolo
Zihua Wang Title: Characterization of high-Q ultralight membranes towards novel optomechanical designs Supervisors: Prof. Eugene Simon Polzik, Dr. Georg Enzian
Manar el Akel Unlocking the sulphur chemistry in a protostellar environment physical and chemical conditions Academic Advisor: Assoc. Prof. Jes K. Jørgensen
New discovery about distant galaxies: Stars are heavier than we thought A team of University of Copenhagen astrophysicists has arrived at a major result regarding star populations beyond the Milky Way. The result could change our understanding of a wide range of astronomical phenomena,…
A quantum drum that stores quantum states for record-long times With a coherence time of one hundred milliseconds, the membrane can for example store sensitive quantum information for further processing in a quantum computer or network.
Danish astrophysics student discovers link between global warming and locally unstable weather A Danish astrophysics student at the Niels Bohr Institute has used a mathematical approach to unveil how global temperature increase engenders locally unstable weather on Earth.