Hintze Centre for Astrophysical Surveys

NOEMA formIng Cluster survEy (NICE): Characterizing eight massive galaxy groups at 1.5  <  z  <  4 in the COSMOS field

Astronomy & Astrophysics EDP Sciences 690 (2024) a55

Authors:

Nikolaj B Sillassen, Shuowen Jin, Georgios E Magdis, Emanuele Daddi, Tao Wang, Shiying Lu, Hanwen Sun, Vinod Arumugam, Daizhong Liu, Malte Brinch, Chiara D’Eugenio, Raphael Gobat, Carlos Gómez-Guijarro, Michael Rich, Eva Schinnerer, Veronica Strazzullo, Qinghua Tan, Francesco Valentino, Yijun Wang, Mengyuan Xiao, Luwenjia Zhou, David Blánquez-Sesé, Zheng Cai, Yanmei Chen, Laure Ciesla, Yu Dai, Ivan Delvecchio, David Elbaz, Alexis Finoguenov, Fangyou Gao, Qiusheng Gu, Catherine Hale, Qiaoyang Hao, Jiasheng Huang, Matt Jarvis, Boris Kalita, Xu Ke, Aurelien Le Bail, Benjamin Magnelli, Yong Shi, Mattia Vaccari, Imogen Whittam, Tiancheng Yang, Zhiyu Zhang

The DEHVILS in the details: Type Ia supernova Hubble residual comparisons and mass step analysis in the near-infrared

Astronomy & Astrophysics EDP Sciences 690 (2024) a56

Authors:

ER Peterson, D Scolnic, DO Jones, A Do, B Popovic, AG Riess, A Dwomoh, J Johansson, D Rubin, BO Sánchez, BJ Shappee, JL Tonry, RB Tully, M Vincenzi

The expansion of the GRB 221009A afterglow

Astronomy & Astrophysics EDP Sciences 690 (2024) a74

Authors:

S Giarratana, OS Salafia, M Giroletti, G Ghirlanda, L Rhodes, P Atri, B Marcote, J Yang, T An, G Anderson, JS Bright, W Farah, R Fender, JK Leung, SE Motta, M Pérez-Torres, AJ van der Horst

Investigating the VHE Gamma-ray Sources Using Deep Neural Networks

Proceedings of Science 444 (2024)

Authors:

V Vodeb, S Bhattacharyya, G Principe, G Zaharijaš, R Austri, F Stoppa, S Caron, D Malyshev

Abstract:

The upcoming Cherenkov Telescope Array (CTA) will dramatically improve the point-source sensitivity compared to the current Imaging Atmospheric Cherenkov Telescopes (IACTs). One of the key science projects of CTA will be a survey of the whole Galactic plane (GPS) using both southern and northern observatories, specifically focusing on the inner galactic region. We extend a deep learning-based image segmentation software pipeline (autosource-id) developed on Fermi-LAT data to detect and classify extended sources for the simulated CTA GPS. Using updated instrument response functions for CTA (Prod5), we test this pipeline on simulated gamma-ray sources lying in the inner galactic region (specifically 0^◦ < l < 20^◦, |b| < 3^◦) for energies ranging from 30 GeV to 100 TeV. Dividing the source extensions ranging from 0.03^◦ to 1^◦ in three different classes, we find that using a simple and light convolutional neural network it is possible to achieve a 97% global accuracy in separating the extended sources from the point-like sources. The neural net architecture including other data pre-processing codes is available online.

The Radio Counterpart to the Fast X-ray Transient EP240414a

(2024)

Authors:

Joe S Bright, Francesco Carotenuto, Rob Fender, Carmen Choza, Andrew Mummery, Peter G Jonker, Stephen J Smartt, David R DeBoer, Wael Farah, James Matthews, Alexander W Pollak, Lauren Rhodes, Andrew Siemion