Expanding Ejecta Method: II. Framework for Cosmological Distance Measurements via Intensity Interferometry

Abstract

We explore the potential of the expanding ejecta method (EEM) as a cosmological probe, leveraging its ability to measure angular diameter distances to supernovae (SNe) with intensity interferometry. We propose three distinct applications of the EEM: (1) using Type IIP SNe as moderate-distance geometric anchors to calibrate Cepheids, replacing other local distance indicators; (2) directly calibrating Type Ia SNe, bypassing conventional calibration methods; (3) constructing a fully independent Hubble diagram with Type IIP (Type Ia) SNe, entirely decoupled from the traditional distance ladder. Incorporating realistic SN populations, we forecast a Hubble constant precision with next-generation intensity interferometers of 1.6\%, 1.1\%, and 9.3\% \,(3.6\%), respectively, for the three different proposed applications. Future intensity interferometry could yield improvements to 1.2\%, 0.6\%, and 1.5\%\,(0.4\%). The EEM thus offers a powerful geometric alternative for cosmic distance determination.