# A Constraint on Dark Matter Self-Interaction from Combined Strong Lensing and Stellar Kinematics in MACS J0138-2155

**Authors:** Jackson H. O'Donnell (1, 2), Tesla E. Jeltema (1, 2), M. Grant Roberts (1, 2), James Nightingale (3), Abigail Flowers (4), Dhruv Aldas (5) ((1) Department of Physics, University of California, Santa Cruz, (2) Santa Cruz Institute for Particle Physics, (3) School of Mathematics, Statistics, and Physics, Newcastle University, (4) Department of Physics, University of Z\"urich, (5) Department of Physics, University of California, Berkeley)

arXiv: 2508.20179 · 2026-02-25

## TL;DR

This study combines strong gravitational lensing and stellar kinematics to set a new upper limit on dark matter self-interaction cross section in a galaxy cluster, improving constraints on dark matter physics.

## Contribution

It introduces a novel combined lensing and kinematic analysis method to constrain dark matter self-interaction in a galaxy cluster, achieving the most detailed single-system limit to date.

## Key findings

- Upper limit on SIDM cross section: < 0.613 cm^2/g
- Consistent results from lensing and kinematics analyses
- Implication for supernova Requiem reappearance timing

## Abstract

Self-Interacting Dark Matter (SIDM) represents a compelling alternative to collisionless dark matter, with diverse phenomenological signals from dwarf galaxy to galaxy cluster scales. We present new constraints on the SIDM cross section from the galaxy cluster MACS J0138-2155, host to the strongly lensed supernovae Requiem and Encore. Our analysis combines strong gravitational lensing with spatially resolved stellar kinematics of the central galaxy, employing several methodological advances over previous cluster-scale SIDM studies. The result is a self-consistent measurement of the density profile of MACS J0138-2155 across two orders of magnitude in radius. Our lensing and kinematics analyses individually yield highly consistent results, and from their combination we report a 95% confidence upper limit on the SIDM cross section of $\sigma/m < 0.613$ cm$^2$/g, at an interaction velocity of $\langle v_\text{pair}\rangle < 2090$ km/s. This constraint, derived from the most detailed single-system analysis to date, is competitive with previous cluster-scale limits while demonstrating the power of combining complementary gravitational probes. The methodology developed here advances precision cluster lens modeling and will inform future studies of dark matter physics, as well as time-delay cosmography in this unique strong lensing system. Additionally, our results imply SN Requiem will reappear sooner than previously reported, with a 1$\sigma$ CL between January 2027 and November 2028 at H$_0 = 67.7$ km s$^{-1}$ Mpc$^{-1}$.

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Source: https://tomesphere.com/paper/2508.20179