ZTF SN Ia DR2: Overview

arXiv - PHYS - High Energy Astrophysical Phenomena Pub Date : 2024-09-06 DOI:arxiv-2409.04346

Mickael Rigault, Mathew Smith, Ariel Goobar, Kate Maguire, Georgios Dimitriadis, Umut Burgaz, Suhail Dhawan, Jesper Sollerman, Nicolas Regnault, Marek Kowalski, Melissa Amenouche, Marie Aubert, Chloé Barjou-Delayre, Julian Bautista, Josh S. Bloom, Bastien Carreres, Tracy X. Chen, Yannick Copin, Maxime Deckers, Dominique Fouchez, Christoffer Fremling, Lluis Galbany, Madeleine Ginolin, Matthew Graham, Mancy M. Kasliwal, W. D'Arcy Kenworthy, Young-Lo Kim, Dylan Kuhn, Frank F. Masci, Tomas Müller-Bravo, Adam Miller, Joel Johansson, Jakob Nordin, Peter Nugent, Igor Andreoni, Eric Bellm, Marc Betoule, Mahmoud Osman, Dan Perley, Brodie Popovic, Philippe Rosnet, Damiano Rosselli, Florian Ruppin, Robert Senzel, Ben Rusholme, Tassilo Schweyer, Jacco H. Terwel, Alice Townsend, Andy Tzanidakis, Avery Wold, Josiah Purdum, Yu-Jing Qin, Benjamin Racine, Simeon Reusch, Reed Riddle, Lin Yan

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Abstract

We present the first homogeneous release of several thousand Type Ia supernovae (SNe Ia), all having spectroscopic classification, and spectroscopic redshifts for half the sample. This release, named the "DR2", contains 3628 nearby (z < 0.3) SNe Ia discovered, followed and classified by the Zwicky Transient Facility survey between March 2018 and December 2020. Of these, 3000 have good-to-excellent sampling and 2667 pass standard cosmology light-curve quality cuts. This release is thus the largest SN Ia release to date, increasing by an order of magnitude the number of well characterized low-redshift objects. With the "DR2", we also provide a volume-limited (z < 0.06) sample of nearly a thousand SNe Ia. With such a large, homogeneous and well controlled dataset, we are studying key current questions on SN cosmology, such as the linearity SNe Ia standardization, the SN and host dependencies, the diversity of the SN Ia population, and the accuracy of the current light-curve modeling. These, and more, are studied in detail in a series of articles associated with this release. Alongside the SN Ia parameters, we publish our force-photometry gri-band light curves, 5138 spectra, local and global host properties, observing logs, and a python tool to ease use and access of these data. The photometric accuracy of the "DR2" is not yet suited for cosmological parameter inference, which will follow as "DR2.5" release. We nonetheless demonstrate that the multi-thousand SN Ia Hubble Diagram has a typical 0.15 mag scatter.

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ZTF SN Ia DR2：概述

我们首次发布了数千个I型超新星（SNe Ia），所有样本都有光谱分类和一半样本的光谱红移。这次发布的样本被命名为 "DR2"，包含了 2018 年 3 月至 2020 年 12 月间由兹威基瞬变设施巡天发现、跟踪和分类的 3628 个近邻（z < 0.3）Ia SNe。其中，3000个具有良好到优秀的采样，2667个通过了标准宇宙学光曲线质量切割。因此，这次发布是迄今为止规模最大的一次SN Ia发布，使特性良好的低红移天体的数量增加了一个数量级。通过 "DR2"，我们还提供了近千个SNe Ia的体积限制（z <0.06）样本。有了这样一个庞大、均质和良好控制的数据集，我们就可以研究当前有关SN宇宙学的关键问题，如SNe Ia的线性标准化、SN与宿主的相关性、SN Ia群体的多样性以及当前光曲线建模的准确性。与此次发布相关的一系列文章将对这些问题以及更多问题进行详细研究。除了SN Ia参数之外，我们还发布了我们的测力光度gri波段光曲线、5138光谱、局部和全局宿主属性、观测日志以及一个python工具，以方便使用和访问这些数据。DR2 "的光度精度还不适合用于宇宙学参数推断，这将在 "DR2.5 "发布后进行。尽管如此，我们还是证明了数以千计的 SN Ia 哈勃图具有典型的 0.15 马格散射。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - High Energy Astrophysical Phenomena

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