Overlapping of photon rings in black hole imaging

TL;DR

This paper analyzes how photon rings in black hole images overlap depending on the accretion disk's inner radius, introducing a universal matrix of merging that characterizes spacetime properties and constrains black hole metrics.

Contribution

It introduces the matrix of merging to describe photon ring overlaps, revealing universal properties and forbidden patterns across spherically symmetric spacetimes.

Findings

The matrix of merging encodes spacetime-specific overlap patterns.

Certain overlap configurations are universally forbidden.

Application to Schwarzschild and Reissner-Nordström black holes demonstrates the method.

Abstract

In this paper, we investigate the overlapping of photon rings - higher-order images of a black hole's luminous environment, concentrated near the shadow boundary and expected to be resolved in future observations. We consider a broad class of static spherically symmetric spacetimes and geometrically thin equatorial accretion disk with a prescribed inner radius and infinite outer extent, viewed by a polar observer. Depending on the inner radius of the disk, the thickness of each photon ring varies, and the rings may or may not overlap. By overlapping, we mean that portions of images appear at the same angular position on the observer's sky. To characterize the overlapping, we introduce the radius of merging - the value of the disk's inner radius at which two photon rings of given orders begin to overlap. Since each radius of merging is labeled by two indices corresponding to the image orders, it becomes possible to arrange these radii in the form of an infinite-dimensional matrix where only the upper right-hand corner is filled. This matrix, which we call the "matrix of merging", is a signature of spacetime only, and, once known, it provides a qualitative understanding of the overlapping pattern for any chosen value of the inner radius of the disk. Remarkably, the matrix of merging exhibits several universal properties that hold for all spherically symmetric metrics and can be established even without explicit calculation of light trajectories. Based on these properties, we demonstrate that certain overlapping patterns are universally forbidden across all such spacetimes and for any inner radius of the disk. Examples for the Schwarzschild and Reissner-Nordstr\"om black holes are provided. The main application of our study is constraining the spacetime metric and the accretion model using observed photon ring overlaps.