Pipeline development for next-generation Cosmic Microwave Background observations

The Cosmic Microwave Background (CMB), relic radiation from the hot Big-Bang, carries a wealth of information about physical processes at work in the very early universe, at energies far beyond the reach of man-made particle accelerators. Next generation observatories are poised to further constrain physics beyond the Standard Model of particles and fields, the nature of Dark Matter and Dark Energy, the existence of primordial Gravitational Waves, and the formation of structures.

Scientific exploitation of CMB polarization observation data with the Simons Observatory, CMB-S4 and LiteBIRD

Investigating Diffusion Models for Astronomical Image Deconvolution

This internship is proposed for a duration up to 6 months and will involved spending a few months at IAC (Canarias Islands).

All details can be found in the PDF description attached.

Antenna coupled Kinetic Inductance Detectors for the observation of the Cosmic Microwave Background polarisation

The study of the cold Universe allows us to go back to the origins of our solar system by observing the embryos of stars, or to the origins of the Universe by measuring the polarisation of the Cosmic Microwave Background (CMB). These sub-millimetre and millimetre instruments require the use of superconducting detectors cooled down to 100mK. Kinetic Inductance Detectors (KIDs) are based on superconducting resonators and are about to replace bolometers thanks to their natural frequency multiplexing and ease of production (in their basic form).

Discovery of cluster and proto-clusters at z>1.5 with Euclid: cosmology and the study of their galaxy population

Accelerating Bayesian inference for cosmological pipelines

Summary

Postdoctorat en caractérisation de détecteurs à inductance cinétique

Informations principales

Référence : Offre choisir le service public n°2023-1273724 Catégorie : A

Type de contrat : CDD

Durée de contrat : 6 mois

Date limite de candidature : 31/08/2023

Rémunération : Selon profil

Date souhaitée de prise de fonction : 01/09/2023

Ingénieur·e pour nano-fabrication de détecteurs à inductance cinétique

Informations principales

Type de contrat : CDD Ingénieur de Recherche

Durée de contrat : 6 mois

Date limite de candidature : 31/08/2023

Rémunération : Selon profil

Date souhaitée de prise de fonction : 01/09/2023

Machine learning for source detection and galaxy photometric redshifts

Machine Learning techniques have revolutionized artificial intelligence. Their application to astrophysics and cosmology permits us to analyze the large quantity of data obtained with current surveys and expected from future surveys with the aim of improving our understanding of the cosmological model.

LABORATOIRE

ASTROPARTICULE & COSMOLOGIE

Cosmologie

Pipeline development for next-generation Cosmic Microwave Background observations

Scientific exploitation of CMB polarization observation data with the Simons Observatory, CMB-S4 and LiteBIRD

Investigating Diffusion Models for Astronomical Image Deconvolution

Antenna coupled Kinetic Inductance Detectors for the observation of the Cosmic Microwave Background polarisation

Discovery of cluster and proto-clusters at z>1.5 with Euclid: cosmology and the study of their galaxy population

Discovery of cluster and proto-clusters at z>1.5 with Euclid: cosmology and the study of their galaxy population

Accelerating Bayesian inference for cosmological pipelines

Summary

Postdoctorat en caractérisation de détecteurs à inductance cinétique

Informations principales

Ingénieur·e pour nano-fabrication de détecteurs à inductance cinétique

Informations principales

Machine learning for source detection and galaxy photometric redshifts

Pages

Formulaire de recherche

Summary

Informations principales

Informations principales

Pages